Formwork Guide

INDUSTRY GUIDE FOR FORMWORK CONSTRUCTION INDUSTRY SOUTh AUSTRAlIA JUNE 2012

INDUSTRY GUIDE FOR FORMWORK

1

INDUSTRY GUIDE FOR FORMWORK

1

Awdt This guidance material has been developed by a tri-partite industry working party and has involved extensive consultation with industry and other special interest groups. The contribution of the following organisations is acknowledged:

• • • • • • • •

Built BuiltEnv Environ ironsPt sPtyL yLtd td Construction, Construction,Forestry Forestry,Mi ,Mining ningandE andEnergy nergyUnion Union Hansen HansenYu Yunck ncken enPty PtyLtd Ltd Hindma Hindmarsh rshA Aust ustral ralia ia Mitcon MitconForm Formwor workPt kPtyL yLtd td Newg Newgen enF For ormw mwork orkers ers SystemF SystemForm ormwork workPt PtyLt yLtdd Safe SafeW Work orkSA SA

Diaa t :

• Bovi BovisL sLen end dLea Lease se • WorkplaceHea WorkplaceHealthan lthandSafet dSafetyQueen yQueensland sland • Safe SafeW Work orkSA SA Phtaph t :

• • • •

Construction, Construction,Forestry Forestry,Mi ,Mining ningandE andEnergy nergyUnion Union Mitcon MitconForm Formwor workPt kPtyL yLtd td SystemF SystemForm ormwork workPt PtyLt yLtdd Hindma Hindmarsh rshA Aust ustral ralia ia

Diai

PrefAce ThisIndustryGuideforFormworkisbasedontheSouth AustralianOccupational Health, Saety and Welare .GiventhatSouthAustraliaislikely Australiaislikely Regulations 2010 .GiventhatSouth toadopttheharmonisedlegislation, toadopttheharmonisedlegislation,itisrecommended itisrecommended that readers of this document also become familiar with

therequirementsoftheWorkHealthandS therequirementsoftheWorkHealthandSafety(WHS) afety(WHS) legislation once it comes into effect.

SafeWorkSA,incollaborationwith SafeWorkSA,incollaborationwithmembersofthe membersofthe ConstructionIndustry,hasprod ConstructionIndustry,hasproducedthisguidan ucedthisguidanceto ceto provideemployers,self-employed, provideemployers,self-employed,andemployeeswith andemployeeswith practical advice on preventing injury to anyone engaged in erecting and dismantling formwork and associated equipment.

AspartoftheSAConstructionIndustryOHSCommittee’s AspartoftheSAConstructionIndustryOHSCommittee’ s strategytoaddressareasofhighrisk,itwasagreed that the creation of appropriate industry guidelines for erecting and dismantling formwork and associated equipment was a priority. It was further agreed that the codes of practice and

guidelines,existinginotherstates(Que guidelines,existinginotherstates(Queensland, ensland,New New SouthWalesandVictoria)andoperatingeffectively,could be utilised in the development of a similar resource for

SouthAustralia.

Information provided in this publication has been prepared by industry representatives and is designed to prevent injury to anyone engaged in erecting and dismantling formwork and associated equipment. This publication is correct at the time of printing and is provided as general information only. In utilising general information about workplace health

andsafety,thespecicissuesrelevanttoyourworkplaceshouldalwaysbe considered. Theremaybeadditionalrisksataworkplacethathavenotbeenspecically addressedinthisguidance.UndertheSouthAustralianoccupational healthandsafetylaws,suchrisksmustbeidentiedandcontrolmeasures implemented and reviewed to eliminate or minimise exposure to these risks. Usersofthisguidancematerialshouldbeawarethatitisbasedoncurrent knowledge and construction methods within the industry and is not intended to exclude other methods or processes that can also meet the required safetystandards.Thisindustryguide,onanyparticularaspectoflegislation, is not to be taken as a statement of law. To To ensure compliance with your legalobligationsyoumustrefertotherelevantActs,Regulationsand ApprovedCodesofPractice.Thispublicationmayrefertolegislationthathas ApprovedCodesofPractice.Thispublicati onmayrefertolegislationthathas beenamendedorrepealed.Whenreadingthispublicationyoushouldalways refer to the latest laws.

2

Th ti  thi idt id a t: • givepract givepractical icaladvic adviceabo eaboutwa utwaysto ysto aa xp t i aiatd with w ii th a, ti, atati ad diati  w • contributet contributetothe othedevel development opmentof of itt hih tadad  a w i th tti idt that a di t t pati at th wpa. It i t itdd that thi id  appid t i-t hi.

conTenTs 1. Itdti

1.1

Falls from height – limitations of harness

4.3 Stripping formwork 4.3.1 General formwork stripping 4.3.2 Safe work method statements 4.3.3 Certication prior to stripping 4.3.4 Exclusion zone 4.3.5 Drop stripping 4.3.6 Bond reduction 4.4 Crane and other load handling systems 4.4.1Loadingmaterialsduringformworkconstruction 4.4.2 Slinging loads 4.4.3 Lifting gear 4.4.4 Lifting formwork materials 4.4.5 Lifting lugs 4.5 Use of ladders

4

4

systems for formwork activity 2. Di

2.1 Safedesign of buildingsinrelation toformwork 2.1.1 ‘Buildability’ 2.1.2 Materials 2.2 Formwork systems 2.2.1 Safe formwork design and verication 2.2.2Formwork design certication requirements

5

5 5 5 6 6 6

2.2.3 Documentation

7

2.2.4 Design variations 2.2.5 On-site coordination and verication

8 8

3. cdiati ad adiitati

3.1 Work program 3.2 Housekeeping – access and storage 3.2.1 Access and egress 3.2.2 Material storage 3.2.3 Rubbish storage and removal 3.2.4 Storage to minimise manual task risks 3.3

9

9 9 9 9 9 9

Training

10

4. W t

10

4.1 Formwork erection – traditional systems 4.1.1 Foundations  4.1.2 False deck 4.1.3 Erecting frames 4.1.4 Installing bearers 4.1.5 Installing joists 4.1.6 Fall protection from the formwork deck 4.1.7 Edge protection on the formwork deck 4.1.7.1 Formworkconstructionzonephysicalbarriers 4.1.7.2 Edge protection on completed decks 4.1.8 Laying a formwork deck 4.1.8.1 Getting started – safe access 4.1.8.2 Typical work system for a leading edge 4.1.8.3 Laying a form ply deck 4.1.8.4 Laying a metal deck 4.1.9 Cantilever requirements 4.1.10 Penetrations 4.1.11 Working zones forformworkersand others 4.1.12 Changing oor levels 4.2 Formworkerection–modularformworksystems 4.2.1 Basic modular systems 4.2.2 Training

10 11 11 11 12 12 12 13 13 13 13 13 15 15 16 16 16 17 18 18 18 18

5. spia qit  wa ad  

5.1 5.2 5.3

Bracing for wind loading Access platforms Lifting methods

18 18 18 19 19 19 19 19 19 19 20 20 20 20 21

21 21 21

6. spia qit  ip  ad p  22



6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8

Access and egress Work platforms Trailing screens and platforms Climbing the form Training Health issues and amenities Engineering issues Emergency issues

7. fai t

7.1 Hazard controls 7.2 Prevent the object from falling 7.3 Perimeter containment screens 7.3.1 Screen height at building step-ins 7.3.2 Perimeter screen gaps 8. Hath 

8.1 Noise 8.2 Dust and atmospheric contaminants 8.3 Manual tasks

22 23 23 23 24 24 24 25 26

26 26 26 26 27 27

27 28 28

APPenDIces

29

Appendix 1: Denitions

29

Appdix 2: Taii

30

Appendix3:Sampleengineer’scerticationletters

31

Appdix 4: ctti hit

33

Appendix5:Samplestructural(pre-pour)certicate

34

Appdix 6: Dt  d i w t

35

3

1.

1.1

Itdti

sysTems for formWork AcTIvITy

Formworkisthesurface,supportsandframingusedtodenethe shapeofconcreteuntiltheconcreteisself-supporting(see AS 3610- 1995 Formwork or Concrete ). Forthepurposesofthisguide,theformworkassemblyincludes: • theformsonwhichconcreteispoured • thesupportstowithstandtheloadsimposedbytheforms and concrete

Whenerecting,alteringordismantlingformwork,theuseofthe following systems is not recommended: • travelrestraintharnesssystemstopreventafall • fallarrestharnesssystemstoarrestafall. Travel restraint harness systems are impractical for formwork as:

• thecontouroftheleadingedgeisconstantlychanging,requiring the length of the travel restraint line to be continually adjusted

• anybracingaddedtoensurestability. Hazardsassociatedwiththeerection,alterationordismantlingof formwork include:

• • • • • • • • •

fAlls from HeIgHT – lImITATIons of HArness

• multiplelanyardanchoragepointsmayberequired • thegreaterthenumberofworkersbuildingtheformworkdeck, the greater the likelihood of lines becoming tangled.

fallsfromheight fallingobjects formworkcollapse(before,duringandafterpouringofconcrete) slipsandtrips noise dust manualtasks sharpedgesonmetaldecks sunglare.

Toproperlymanagerisks,apersonmust: • identifyhazards • assessrisksthatmayresultbecauseofthehazards • decideoncontrolmeasurestoprevent,orminimise, the level of risk

• implementthecontrolmeasures • monitorandreviewtheeffectivenessofthosemeasures. Controlmeasuresmustbeimplementedinanorderofpriorityand beforeworkcommences.Figure1belowillustratesthehierarchy of controls which represents the order of priority for controls where

Fall arrest systemsareprohibitedundertheSouthAustralian

Occupational Health, Saety and Welare Regulations 2010 (OHSW Regulations)insituationswherethereisinsufcientdistance availabletopreventapersonhittinganobject,thegroundoranother surface,otherthanaverticalsurface.Forexample:

• Whenerecting,alteringordismantlingformwork,theremaybe insufcientfreefalldistanceunderneaththeworkingarea, resultinginafallingpersonstrikingtheground,aframeorother obstruction prior to the fall being arrested.

• Afallingpersonmayrequireafreefalldistanceinexcessof 6mforthefalltobesafelyarrestedbyaharnesssystem.In somesituations,thisdistancecanbesubstantiallyreducedby the use of shorter lanyards and/or higher anchorage points.

• Theanchoragepointdesignloadrequiredforfallarrestsystems isrelativelyhigh.TheOHSWRegulationsspecifythateach anchorage point of the system must have a minimum capacity of

15kNforonepersonfree-falling. • Theerectionofformworkframesusingfallarrestharnesses requires the user to regularly disconnect from and reconnect to

anchoragepoints,requiringtheuseofadoublelanyard.

there is a risk that a person could fall.

Di ad pai

Eliminatetherisk during the design and planning stage.

Wh thi i t patia,   1 t:

Wh thi i t patia,   2 t:

Workonasolidconstruction withsafeaccess/egress,edge protection,openingscoveredetc.

Usefallpreventionsystems e.g.temporaryworkplatforms, scaffolds,perimeterguardrails, elevating work platforms.

Wh thi i t patia,   3, thenlevel4ornally,level5controls: l 3–useworkpositioningsystems, travel restraint systems l 4–usefallarrestorcatchplatforms l 5–useladdersoradministration

controlse.g.nogoareas,permitsystems, safe work systems.

Figure 1 Hierarchy o controls – Controlling the risk o alls

4

cid th wi  i a ha t:

• Ariskassessmentaddressingthehierarchyofcontrolsshouldbe usedtoidentifysatisfactoryalternativestoaharness–basedon fall prevention measures.

• Implementingtheuseofsolidworkzonebarriersisone effectiveengineeringsolution.Refertosection4.1.7ofthisguide for further information.

• Trainingisrequiredbeforeapersonusesaharness.Fortraining requirementsundertheSouthAustralian Occupational Health, Saety and Welare Act 1986 (OHSWAct),pleasereferto Appendix 2.

2.

Di

Undersection23a‘Dutiesofdesignersandownersofbuildings’of theOHSWAct,designersofbuildingstobeusedasworkplaceshave obligations for workplace health and safety. 2.1

sAfe DesIgn of buIlDIngs In relATIon To formWork

2.1.1

‘bidaiit’ Figure 2 – Flat oor and temporary access as all protection or deep oor beams

Buildingdesigners,includingengineersandarchitects,must considerthe‘buildability’ofastructureorbuildingwiththeobjective of producing a design that minimises the risk of injury during construction.

• Reducecantileveredoorsections. • Planformanualtasks.Considerationshouldbegiventothe

Thedesignofthenalconcretestructuremayhaveamajoreffecton theeaseofformworkconstructionandconsequently,onthesafetyof peopleduringconstruction.Generally,amorebasicandsimplenal

suitability of the design of different formwork systems that will -

table forms

concrete structure is safer to erect.

-

systems with lighter weights of materials to be handled

Aformworkdesignershouldbeconsultedduringthedesignofany building to provide input on ways to minimise the risk of injury arising from formwork activities.

reduce manual handling risks such as:

- methodsofformworkerection,alterationanddismantling -

improved access and egress for workers and movement of materials and equipment

- methodsformovinglargeandheavycomponents,materials

The following design measures could be considered to minimise

and equipment i.e. making allowances for a crane and other

exposure to risk of injury during the construction of formwork:

mechanical lifting devices to be used.

• Reducevariationsintheoordepthi.e.constructaoorso that it has one consistent depth. Decks that are a consistent

2.1.2

matia

depthareeasiertoerectthanvariabledepthoorsandreduce theriskofinjury.Deeperbeamsintroduce‘dropdowns’into theoor,creatingtripandfallhazards,andrequiremoreworkto

Allmaterialsandequipmentusedinformworkconstructionmust betfortheintendedpurpose,meetdesignspecicationsandbe designedtoconformtorelevantAustralianStandards.Equipment

construct and strip after pouring.

must be manufactured in accordance with a quality assurance

• Wherebeamformsareessential,lightweighttemporaryaccess across the beam recess must be provided to prevent injury to

workersfromsteppingintotheformduringconstruction(see Figure 2above). • Reducethenumberofcolumnsrequiredandwherecolumnsdo exist,eliminatecapitalsanddropdowns. • Utiliseprecastcolumnsandbeams.Thiscanreducetherisks associatedwithxingreinforcement,erectingandstripping columnformworkandpouringconcreteon-site.Workactivities carried out in a factory environment are generally lower risk.

systemthatensurescompliancewiththedesignspecication. Evidenceverifyingthatformplysheetsandtimberbearersconform toAustralianStandardsshouldbekepton-site.Suchevidencemay include:

• apurchaseorderwhichdetailsthespecicationsofthe form ply sheets ordered

• formplysheetsbeingmarkedinaccordancewithAustralian Standards(see AS/NZS 2269.0:2008 Plywood-Structural- ). Specifcation 5

Ifalternativeproducts,otherthantimberareused,anengineer

− the geographical location of the construction site will have a

bearingontheseverityofwindonthestructure.Wind

should verify that they are adequate for purpose.

generally has less effect in built up or hilly areas 2.2

formWork sysTems

− AS 1170.2 Structural Design Actions – Wind Actions

speciesfourdifferentterraincategoriesthatshouldbe

InAustralia,formworksystemsaregenerallydesignedto:

taken into consideration by a formwork designer as well

• AS 3610 – Formwork or Concrete • AS 3600 – 2009 Concrete Structures.

asbasicwindspeedsfordifferentzonesinAustralia [practicallyallareasofSouth AustraliafallunderRegionA (normal)].

2.2.1 Safeformworkdesignandverication

Adesignerofformwork,eitheraformworkdesigneroranengineer (seeAppendix1fordenitions),isresponsibleforoverseeingthe safe design of the complete formwork structure. This includes

designoftheformworksupportstructure,theformworkdeckand connection details.

Whenspecifyingthedesignoftheformworksystem,aformwork designer must allow for all expected loads applied during the three

phasesofconstructioni.e.duringformworkerection,duringconcrete pouring and after concrete pouring is complete until the structure is self-supporting. This includes loads applied by:

• • • •

theformworkdeck,supportingmembersandformworkframes anyfalsedecksthatmaybeprovided concretepouringtechniques(i.e.concreteskiporpump) theconcretepour,whichincludesboththeweightofthe concreteanddynamicfactorsapplied,includingtheconcrete pour rate and pour sequence

• workersontheformworkdeckandfalsedecks • stackedmaterials • crane-liftedmaterialsonboththecompleteandincomplete formwork deck

• environmentalloads,includingforcesduetowaterowing aroundtheformwork.Rainandrunoffcanhaveadetrimental effect if not considered by a designer

• wind,asdetailedin AS 1170.2:2011 Structural Design Actions – Wind Actions: − wind loading will vary depending on:

Refertosection4‘StructuralDesignandDocumentation’of AS 3610 Formwork or Concrete for further details on formwork load calculations. 2.2.2 Formworkdesigncerticationrequirements This guide considers two types of formwork systems: ai and -ai.Aformworkdesignermaycertifyabasicformwork

system,whereasonlyanengineermaycertifyanon-basicformwork system.

Whilethisguiderecommendsthatonlyanengineermaycertifya non-basicformworksystem,itisrecognisedthatacompetentperson experiencedinformworkdesignanddocumentation,suchasa formworkdesigner,mayperformthemajorityofthedesignwork. Forbothbasicandnon-basicformworksystems,certicationshould conrmthattheformworkmeetstherequirementsof AS 3610 – 1995 Formwork or Concrete and the construction drawings. This certicationshouldalsoconrmthatotherformworkandproject documentationdetailedinsections2.2.3ofthisguide,havebeen completedasrequiredfortheproject.Sampleengineer’scertication lettersareprovidedinAppendix3. bai w t

Forthepurposesofthisguide,abasicformworksystemisthe formworkforaoor,wallorcolumnandincludes: • standardformworkframeswhichhaveaknowntestedloading

- the size of form

capacity and are spaced at no more than the recommended

- the nature of the form

distancesapartforanormaloorthicknesswithbearers,joists

- wind speed

and form board on top of them

- wind resistance(e.g. screens) - wind direction

− windloadingonverticalforms,particularlyforexternalwalls, columns,freestandingshutters,bladewallsandany platforms that may be subject to uplift − vertical elements should be fully braced prior to and during stripping until such time as the construction provides adequate support against wind loading

− shadeclothusedonscreens,signageandoutsidescreens will increase the effective wind loading of an open structure

• speciallymanufacturedanddesignedformworksystemswith proprietary formwork components and rated load calculations in

linewiththemanufacturers’specications. Abasicformworksystemislimitedbythefo llowingconditions: • theheightoftheformworkmaybeuptoamaximumof6mto thesoftofthenewoorfromthesupportingoor • wallsandcolumnsmaynotbegreaterthan6mfreestanding fromtheooronwhichtheformworkwillbesupportedtothetop surface of the concrete

• anyback-proppingisexcludedfrombasicformworksystemsand istobecertiedbyanengineer. 6

Eitheraformworkdesignerorengineermaycertifyabasicformwork system.Whereanyoftheseconditionsareexceededorbackproppingisinvolved,thesystemistobeclassiedasanon-basic formworksystemandmustbecertiedbyanengineer. n-ai w t

Formworksystemsthatexceedthedescriptionofabasicformwork systemare,forthepurposesofthisguide,categorisedasnon-basic formworksystems.Forthepurposesofthisguide,onlyanengineer may certify:

• thedesignofanytemporaryorpermanentformworkstructures categorised as non-basic formwork systems

• anyback-proppingusedforeitherbasicornon-basic formwork systems.

Non-basicformworksystemsincludeformworkstructuresforany oor,wallorcolumnhigherthan6m,orthreeframes,orthreetimes the least base width of the scaffold. 2.2.3

Dtati

The extent of documentation required for any structure may vary depending on the complexity of the formwork and supporting structure design and the conditions in which it is to be constructed. The documentation requirements outlined below are provided as

aguideonly,forsituationswherethereisacomplexconstruction processatheight,thatisconsideredtobehighrisk.Itisexpected that some elements of documentation may be reduced or omitted for some more basic and lower risk construction applications. fw dawi

Formworkdrawingsexplainthegeneralarrangementoftheformwork plans,elevationsandsections,identifyingandlocatingallmembers and components including bracing.

Anengineershouldnominatethefollowingonthedrawingsorother documentation:

• maximumallowablepointloadingtobeappliedandany additionalproppingrequirementsatanyspecicloadingarea • componenttypesandspacing • maximumjackextensions • bearerandjoisttimbertype,dimensionsandspacing • propsizesandmaximumextensions • methodsfortyingthestructuretogetherandspacingbetween ties(ifrequired) • formplysize,thicknessandgrade. Whereeccentricloadingistobeappliedto‘U-heads’(i.e.single bearersarepositionedtoonesideoftheU-head),theformwork drawings must state that this is permitted.

oth w dtati The following information should be included in the formwork documentation:

• anynecessarypreparationofthefoundationsuchaslling, compaction and drainage

• anyfootingdesignassumptions,suchasfoundationmaterial description,safebearingvalues,limitationsonsettlementduring erectionofformwork,placementofconcreteanddismantlingof formwork.Referencetoinformationsourcessuchas geotechnical reports may also be included

• footingdetails,suchastypeandsizeoffootings,levelofsoft, concretemixdesignstrength,reinforcement,specication anddetailsofsitellingorcompaction,andprecautionsagainst washouts

• sufcientdetailstofullydescribeimportantorunusualfeatures oftheformworksystemdesign,includingdesignassumptions, particularlythoserelatingtostrength,stabilityandstiffness • theareasoftheformsdesignedtocarrystackedloads,together withthemaximumallowableload,andtheminimumstrengthof concrete to be achieved prior to materials being stacked

• Safeworkmethodstatementsaddressing: − the erection and stripping of the formwork assembly − methods for securing single or multiple props

− methodsforeldadjustmentoftheformspriortoand during concrete placement

− verticalpourratesinmetresriseperhour,includingtherisks and implications of exceeding vertical pour rates

− sequenceofconcreteplacement,includingdirectionof intendedpouronrakingorslopingsurfaces(e.g.carpark ramps and minimum elapsed time between adjacent

placements) − wrecking strips and other details relating to stripping of the forms

• certicationofnon-proprietaryequipment • referencetodocumentationforproprietaryitems • whererequired,locationofweepholes,vibratorholes,clean-out holes and inspection openings

• acceptancecriteriaforsingleuseformwork. Pt dtati

Otherprojectdocumentationshouldincludethefollowing information:

• detailsoffallandedgeprotectioni.e.perimeterscaffolding • locationofanymandatoryjointsandanyspecialproceduresfor locating other joints

• detailsofanyinserts,waterstops,speciallyformedshapesor penetrationstobeconstructed,thelocationanddetailsofwhich are critical to the serviceability of the permanent structure

• informationonanyarchitecturalorstructuralcomponentdetails to be cast into the structural concrete 7

• detailsofthecamberingofanyslabsorbeams • informationaboutanypermanentformworksystems,together withlimitationsondeectionsandanyspecialrequirementsfor their erection and concreting • limitationsontheuseofthepermanentstructurefortherestraint of formwork • minimumstrippingstrengthortimes,strippingproceduresand requirements for health and safety • detailedinformationontheeffectofpreorpost-tensioning procedures on the formwork and any special procedures to be adopted in the stripping of formwork • detailsofback-proppingthatmayberequiredandminimum timeintervalsbetweenconcretepours,includingrequirements for propping of any composite construction • requirementsfortheminimumnumberoflevelsofsupports relativetothetypeofformwork,thetimingandsequenceof oorpropping,andtheanticipatedtimebetweenconstructionof subsequentoorsformultistoreystructures. 2.2.4

Di vaiati

Allformworksystemdesignvariationsmustbecheckedbyaformwork designerforabasicsystem,oranengineerforanon-basicsystem. Thevariationsmustbecertied(inwriting)ascomplyingwith AS 3610 – Formwork for Concrete or whether they need to be altered in accordance with written directions to comply with AS 3610 . Potentialvariationsmayinclude: • thenumberofformworkframesundertheformworkdeck • typesandnumberofbracesorpropsotherthanindicatedon the formwork drawing • • • •

typesand/orquantitiesoftiesontheformworkstructure spansonmemberssupportingtheformworkdeck back-proppingsystemsspeciedbyanengineer connectionsbetweentraditionalformworkand modular formwork.

2.2.5 On-sitecoordinationandverication

Complexprojectsrequireconstantandvigilantcoordinationbyan experiencedmanagementandsupervisoryteam.Withproperly scheduledandcoordinatedactivities,sub-contractorsareabletocarry outtheworkinanorderly,safe,andmoreproductiveway. Effectivecoordinationandtechnicalaccuracyalsorequirethat

• materialsandcomponentsusedon-sitecomplywiththeformwork designspecications,drawingsanddocumentation • damagedorexcessivelywornmaterialsandcomponentsarenot used,butareidentiedandsentoff-siteforrepairoraredestroyed. Theformworkstructure’scompliancewithitsdesignmustbeveried anddocumented.Aconstructionchecklistmaybeusedasaguidefor thisprocess(refertoAppendix4forasamplechecklist).However, relying solely on a checklist does not necessarily verify compliance with relevantAustralianStandards. Thedesignvericationanddocumentationprocessmaybedelegated toa‘competentperson’who,ifnotanengineerorformworkdesigner, musthavetheexperience,trainingandknowledgetoperformon-site inspectionsoftheformworksystem(refertoAppendix1fordenitions). The competent person must be:

• experiencedinformworkconstruction • competentininterpretingdrawings • abletocertifythattheformworkstructuresatisesthedetails ontheformworkdrawings,specicationsandanyotherformwork documentation. Shouldthecompetentpersonon-sitenotbeaformworkdesigneroran engineer,thecompetentperson: • mayonlyverifythattheformworkstructurecomplieswiththe designer’sspecicationsanddrawings • maynotauthorisevariationstothedesign • mustprovideanyconstructionchecklistreferralstoanengineer in writing • mustprovidewritteninstructionstotheformworksupervisorfor any remedial actions that need to made to the formwork system prior to the concrete pour • mustensurethatanyremedialactionrequiredhasoccurredprior totheconcretepour,includinganyitemsreferredtoanengineer. Pre-pourinspectionmustfocusonsuchmattersas: • thelatestversionofstructuralandformworkarrangement drawings and details submitted • correctspacingofframes,propsandtimbers • correctjoistandbearersizes,andloading • acceptablejackextensions • adequatebracingtoensurestability.

formwork,projectandvariationdocumentationarereadilyaccessible on-site.

Pre-pourinspectionsarethelastreasonableopportunitytoensure compliancewiththeformworkdesignspecications.Suchinspection records form an important part of the site quality control system and

Wheneffectivesitecoordinationisnotimplementedoraconstruction teamdoesnothaveaccesstoessentialtechnicalinformation,the potential for failure increases.

mustbesigned-offbyanengineer,formworkdesignerorcompetent personfollowingthenalpre-pourinspection.Asamplepre-pour structuralinspectioncerticateisprovidedatAppendix5.

Vericationoftheformworkstructure

c dt i w yt

Aneffectivequalitycontrolsystemmustbeimplementedforthe construction of formwork. The system should ensure that:

Appendix6illustratessomeofthemorecommondefects that are likely to occur in a formwork system. The list is intended to

8

give guidance to a competent person and is not considered to be

exhaustive.Inanyindividualcase,theimportanceofitemsmayvary and only a competent person can assess their relative importance.

3.

cdiati ad adiitati

3.1

Work ProgrAm

Therisktoaperson’shealthandsafetymustbeconsideredwhen designingaworkprogramforerecting,alteringordismantling formwork.Considerationshouldbegivento: • edgeprotectionrequirementsandensuringthesearedesigned and constructed in a timely manner to be safe to use

• sequencingworktoensurethatsufcienttimeandresources are allowed for each work activity

• coordinatingtradestoallowworktobecompletedfreefrom obstruction. 3.2

HousekeePIng – Access AnD sTorAge

Formworkconstructionresultsinaconstantlychangingwork environment,withrestrictedaccessthroughframesandformwork supports,oftenwithlargevolumesofmaterialandwaste.Forthis reason,itrequiresongoingmonitoringofhousekeepingpracticesto maintain a safe and productive workplace. Include housekeeping as an essential aspect of every job whether

itbethroughworkinstructions,regularinspectionoftheworkplace, or site/task induction training. Instructions should include time and resources for the progressive clean up of work areas to prevent

rubbishandredundantmaterialsfrombecomingatriphazardandto allow safe access for mechanical aids. 3.2.1 A ad 

TheOHSWRegulationsrequirethattherebeclearaccessto andfromtheworkplaceinaccordancewithDivision1–Access and egress.

Clearaccessisimportantforthesafemovementofmaterials, equipment and anyone on-site. Designated access ways should be

providedandanyoneon-siteshouldbedirectedtousethem.Access waysmustbekeptclearofanyrubbish,plantormaterials. Insomesituations,greenhazardtaping/buntingorothervisual methods can clearly show where access ways are located. This is particularly important where access is required through formwork frames.

Emergencyaccessandegressmustbeprovidedtoallpartsofthe

3.2.2 matia ta

TheOHSWRegulationsrequiresafestackingandstorageofplant andmaterialsataworkplace,asdetailedinDivision15–Storage. Materialsmustbestoredinawaythatminimisesmanualtask hazards,triphazardsandthepotentialforhazardsfromfalling objects.SmallercomponentssuchasU-heads,couplers,baseplates and‘Z-bars’shouldbestoredinlabelledmaterialboxes,markedwith safeloadlimits(SLL). Wherepracticable,frames,formplysheets,bearersandjoists should be strapped in bundles or stacks and be located away from

theedgeofthedeck,topreventmaterialsoranyoneaccessingthem from falling.

Wallformsshouldbestackedinsuchawaythattheycannotslide, orrotateawayfromthesurfacetheyareplacedagainst.Anengineer shouldverify,inwriting,thatasurfacetobeusedforstackingforms iscapableofwithstandingtheimpactofallimposedloads,including windloading.Ifpurpose-made‘A-frames’arenotavailablefor storingwallformswhennotinuse,itispreferabletolaythemat ontheground,ratherthanleaningthemagainstotherstructures. Timbers,orothereffectivemeansofsupport,shouldbeusedunder forms where slings are to be used for lifting. 3.2.3 rih ta ad a

Rubbishstorageandremovalforformworkmayincludethe provision of rubbish skips and wheelbarrows that are moved as work

progresses.However,rubbishskipsmayonlybepositionedwhere the supporting structure has adequate strength to support the total weight of the bin and its likely contents. 3.2.4 sta t iii aa ta i Incorrect material delivery and storage practices can create

signicantmanualhandlingrisks.Safeworkpracticesthatcanassist in minimising these risks include:

• ensuringthatformworkmaterialsaredeliveredascloseas practicable to the job

• designinganddesignatingasmallsectionoftheformworkdeck as a loading platform for ply and other components

• ensuringmechanicalaidsareusedtohandleloadswherever possible

• storingloadsontrolleystominimisedoublehandling,oron raised platforms to minimise manual lifting from ground level

• havinganadequatestoragespaceorlaydownareastosafely store materials/equipment and to minimise double handling.

workplace. The following situations should be considered:

• • • •

stretcheraccessandegress peoplecarryingtoolsandequipment useofstairs provisionoftwomeansofegressatalltimes. 9

3.3

TrAInIng

Anyonewhomaybeexposedtoworkplacehealthandsafety risks resulting from formwork construction must be provided with

informationandtrainingthatisspecictotheformworksystemthat is being used. Training and information should include details of:

• theformworksystem,components,tasksandactivities • thewaythemanufacturerordesigneroftheformworksystem intendedittobeerected,installed,used,moved,alteredor dismantled

• therangeofhazardsassociatedwiththeformworksystem, controlmeasurestominimiseexposuretotherisks,thecorrect use of controls and how to ensure controls are maintained

• anyspecialrequirementstoundertakeorparticipateinspecic tasks or activities

• anysafeworkmethodstatements,includingtheuseof

4.

W t

4.1

formWork erecTIon – TrADITIonAl sysTems

TheOHSWRegulationsdescribewhatmustbedonewherethere isariskapersoncouldfallinDivision13–PreventionofFalls. Thelegislationalsorequiresthatahazardidenticationandrisk assessmentbeconductedand,wherenecessary,safeworkmethod statements documented.

Formworkactivitiesmustcomplywithregulatoryrequirements fortheerectionofscaffolding.Formwork,likescaffolding,mustbe erectedsafelyandsystematically,andbetiedinprogressivelyto stabilise the structure.

Apersonmustbeprovidedwithaworkingplatformatleast 450mmwide(i.e.twoplanks)evenwhenthepotentialfalldistance is less than 2 m. It is not acceptable for a person to work from a single plank or bearer.

mechanical aids and devices

• theuseandmaintenanceofequipment,includinganyspecic conditionsandprohibitionsonitsuse.Wherenecessary, referenceshouldbemadetooperator’smanuals • anyspecialsafetyinformationneeded,suchassafety precautions for working under certain conditions including hot

workorconnedspacework • personalprotectiveequipmentrequirements,including instructionsfortting,use,cleaning,maintenanceandstorage • theavailabilityandcontentofthisindustryguidancedocument.

Irrespectiveofwhichframingsystemisused,workersmustalways use working platforms that are two planks wide as a minimum.

Whereapersonistoinstalljoists,thiscanbeachievedusingatwoplankworkplatformfromunderneath,allowingtheverticaldistance between the formwork deck and the false deck to be increased. This

isillustratedinFigure3below.

FortrainingdetailsrefertoAppendix2.

>2.0  <2.0 

vArIAble

Figure 3 – Worker erecting ormwork on two planks

10

The false deck should be designed to have adequate strength to

4.1.1 fdati

Formworkmustbeerectedonastablebasetopreventtherisk ofcollapse.Suspendedslabsmustbeabletosafelysupportloads thatmaybeappliedbytheconcretepour,workersandcrane-lifted loads etc.

Baseplatesmustbeprovidedunderpropsandstandardson formworkframesunlesstheproporstandardhasanintegralfoot,or an engineer documents that a base plate is unnecessary.

Soleboardsdesignedtosuitthegroundconditionsmustalsobe usedunderpropsandstandardsonnaturalground,unlessan engineerstatesotherwise.Framesandpropsmustbelocatedon asoundbasethatwillnotsubside,failorwashaway.Theprincipal contractor is responsible for providing all information on ground conditions to the engineer or formwork designer.

support:

• anyonerequiredtostandonthedeck • materialsthatneedtobeonthedeck • anymaterialsorworkersthatshouldhappentofall. The deck must be able to withstand:

• apointloadof2kNdistributedoveranareaof100x100mm (2kNisapproximatelyequivalenttoamassof200kg) • auniformlydistributedloadof2kPa,whichisequivalenttoa mass of 200 kg per m2.

Whenconsideringthedesignofthedeckforerecting,alteringor dismantlingformwork,theweightofthefalsedeckandanyadditional live loads must be applied to the analysis of the formwork support structure. The height between the false deck and the pouring deck should allow

4.1.2 fa d

In situations where a deck is being installed at a height that would require a person to stand at a height of 2 m or more to install bearers

andjoists,acontinuous‘falsedeck’shouldbeprovided(seeFigure 4below).Thisisafulldeckthatisthesameareaastheoorbeing formedbutupto2mbelowthetruedeck.Asindicatedinsection4.1 above,thedistancebetweenthefalsedeckandthetruedeckcanbe increasedwhereaworkplatformisused.However,thefalldistance from the work platform to the false deck must not exceed 2 m. The false deck should be continuous both inside and between

formworkframesandtypicallyconsistsofformply,scaffoldplanksor modularplatformsections.Aprotectedaccessopeningcanbeleftin the deck for lifting in materials.

comfortable access for a person during stripping. 4.1.3 eti a

Anyoneinvolvedinerectingformworkframesmustbetrainedto dothissafely.Apersonsupervisingtheerectionofformworkframe systemsmustbeacompetentperson(asdenedinAppendix1). TheOHSWRegulationsprovidetherequirementsfortrainingand responsibilities of workers performing a class of high risk work. In cases where scaffold equipment is used as a formwork support

structureanditispossibleforapersonorobjecttofall4mormore fromthescaffold,theOHSWRegulationsrequireapersontohold: • aBasicScaffoldinglicence(SB)toerectproprietaryframes

Gap not to exceed 225 mm

or

• anIntermediateScaffoldinglicence(SI)toerecttubeand ttingscaffold. Traineesarepermittedtoperformscaffoldwork,providedtheyare under the direct supervision of a competent person who holds the scaffolding licence necessary for the task.

Formworkframesshouldbeerectedinaprogressivemannerto ensureboththeinstaller’ssafetyandthestabilityoftheoverall structure.Bracingistobeattachedtotheframesassoonas Figure 4 – A alse deck

The use of a captive platform is preferable to lapped planks because a captive system cannot be accidentally dislodged and its

constructionalsominimisestriphazards.Lappedplanksmayonly be used if they are secured against uplift and slippage. The false

deckshouldbeconstructedsuchthatnogapexceeds225mmin width and gaps only exist where a vertical member of a frame passes through the deck.

practicable. The risk of a fall from edges of formwork frames during

theirerectionishigh.Inthissituation,itisnecessarytoinstalledge protection on the frames as they are erected.

Conventionalformworkframesincludediagonallyhingedbracesthat crossinthemiddle.Whilethesebracesarenotconsideredtobe suitableedgeprotectionforacompletedformworkdeck,basedona riskassessment,theymayprovidereasonablefallprotectionduring frameerection.Suchfallprotectionexistsonlywhenbracesare installedimmediately,andinaprogressivemanner.

11

Astheheightofformworkframesincreases,thereisagreat erneed toprovidelateralstabilitytotheframestructure.Allframingmustbe carried out so that it complies with on-site design documentation and

anymanufacturer’srequirements. 4.1.4 Itai a

Whenpositioningbearers,installersmustbelocatednomorethan 2mfromtheoororthefallarrestingplatformlocatedimmediately belowthem.Forexample,bearerscanbeliftedontothetopofthe

Oneexampleofaworksystemthatmaybeusedtodothisis as follows:

The joists are lited by the workers and spread on top o the bearers into their approximate fnal positions whilst standing on a lower work platorm. The platorm below the deck must be positioned at a comortable height or handling joists (without introducing manual task risks) and not greater than 2 m rom the alse deck.

formwork frame by a person standing on a work platform erected

4.1.6 fa ptti  th w d

withintheframeandnomorethan2mfromtheoororfalsedeck locatedimmediatelybelow(seeFigure5below).

Continualmodicationoffallprotectionmeasuresisnecessary

Bearersmustbepositionedsuchthattheywillnotfallfromthe

changing.Oneofthebiggestchallengesistoprovideadequatefall

frames. The common methods of ensuring this are to place the

protection on the leading edge of the formwork deck.

bearersinU-headsontopoftheframesandalsobyensuring cantileversareminimised.Whereonlysinglebearersareplacedin theU-head,thebearermustbeplacedandxedcentrallyinthe U-headunlessaformworkdesignerorengineerstatesotherwise.

Wherethereisonlyoneleadingedge(i.e.theotheredgesare providedwithscaffoldingedgeprotection),theprovisionoffall protectionisrelativelystraightforward.However,wherethereare

4.1.5 Itai it

Whereafalsedeckisprovidedat2morlessbelowformworklevel, joists may be spread on the bearers with the worker standing on the false deck. If the height of the formwork deck being constructed is

morethan2maboveacontinuousdeckorsurface,joistsmustbe spreadfromaworkplatform,atleasttwoplankswide,andlocated within 2 m of the surface underneath the deck being constructed

(refertoFigure5).

during formwork construction because the structure is constantly

multiple leading edges and/or the deck is not at one consistent

level,theprovisionoffallprotectioncanbedifculttoimplement. Designersofbuildingsarethereforeencouragedtodesignoorslabs thatareoneconsistentthickness(refertosection2.1.1‘Buildability’). Leadingedgeandperimeterprotectionmustbeprovidedonedges where the potential fall distance is 2 m or more and a person is not

preventedfrombeingwithin1.8moftheedge.Controlmeasuresare requiredwhereapersoncouldfall,fromanyheight,ontoanobject suchasframes,reinforcingsteelorarubbishskip.

<2.0 

>2.0 

Figure 5 – Setting U-heads, bearers and joists rom a two-plank platorm 12

Acceptable solid work zone barrier with ‘No-Go’ zone below

Figure 6a – General view

4.1.7 ed ptti  th w d 4.1.7.1

fw tti z phia ai

Aphysicalbarriershouldbeprovidedandmaintainedtoseparatethe formworkworkzonefromotherworkers.Thisbarriermustberigid, capable of maintaining its integrity in an upright position and capable

ofsupportingsignageifrequired(seeFigures6aand6babove). The use o ags and tape or unsupported barriers is not acceptable.

Wherethedesignoftheformworkiscomplexandtheproleof thedeckisconstantlychanging,constructionofleadingedge protectionmaycreatemorehazardsthanitwouldcontrol.Insuch cases,itmaybeimpracticaltoprovideedgeprotection,asanyone installing the edge protection would be exposed to the risk of falls. In some situations perimeter edge protection must be installed.

Examplesinclude: • wherethereisachangeindeckheightalongthesideofthedeck beingconstructed,(i.e.adropdownforabeam)andnojoistsor form ply have yet been installed at this different height

• wherealeadingedgeistobeleftunattendedandaccessonto thedeckisrequiredbyanyoneotherthanformworkers(i.e.the formwork deck has not been barricaded off and marked with

‘keepout’signs). 4.1.7.2

ed ptti  ptd d

The most effective means of providing edge protection on a completed formwork deck is to install perimeter scaffolding.

Scaffoldingiserectedpriortotheformworkand,therefore, prevents workers falling from the completed deck. The advantages

ofthissystemarethatedgeprotectionforinstallersofthenal perimeterformplysheetsisalreadyinplace,thereisnorequirement toinstalledgeprotectionontheperimeter,andnoexposuretoarisk of falling.

Figure 6b – Fixing detail

Insomeraresituations,itmaybeimpracticaltoprovideperimeter scaffolding.Insuchcases,edgeprotectionmustbeinstalledandthe work system used for this installation must include a control measure against the risk of a fall.

Theuseofharnesssystemsisdiscouraged,becauseitdoes not provide an adequate level of protection from injury and is an impractical control for the risk of a fall from height in formwork

erection(refertosection1.1ofthisguide). Insomesituations,edgeprotectioncanbesubstitutedwithan alternativemeasure,providedthismeasurepreventsapersonfalling fromtheedge.Onealternativeistheprovisionofabarricade,1.8m fromtheedgewithclearlyvisible‘keepout’signs. Furtherguidanceonstanchions,guardrails(handrails)andmid railsforminimumstrengthandrigidityisspeciedin AS 1657 Fixed platorms, walkways, stairways and ladders – Design, construction and installation. Wherescaffoldingisover4minheight,onlylicensedandauthorised scaffoldersmayerect,dismantleoralterthescaffolding.Any scaffolding components that are temporarily removed must be

replacedattheearliestopportunity.Anygapsbetweenacompleted oorandscaffolding,thatmayexistaftertheformworksupport systemisremoved,mustbecoveredwherethereisariskofa person or materials falling through. 4.1.8 4.1.8.1

lai a w d gtti tatd – a a

Afterthesupportingframes,bearersandjoistsareinposition,the rstessentialconsiderationinlayingaformworkdeckisthatall building work conducted at height requires some type of perimeter

protection.Thesecondessentialconsiderationisthat,forfall prevention,workersmuststayawayfromaleadingedge.Howthese essential elements are achieved is determined by the builder. 13

Therststepinlayingoutaformworkdeckistoprovidesafeaccess andaheavydutybaytoloadandstorematerials,particularlyapack offormply,attheformheight.Successfulsolutionswillbepartially guidedbythesiteitself,thesizeofthejoborthecontractor’s preferredsystem,andmaybeanengineeredsolution,ascaffold solutionoraformworksupportsystemsolution.Eachhasadvantages and disadvantages. eid ti

sad ti

Scaffoldsolutionsmaybemoreexibleintheirarrangementand would normally require a lower initial capital investment than engineered solutions. They are generally more suitable for smaller

jobsandrestrictedsites.Scaffoldsystemloadingbaysarema nually erected,withtheplatformareaandhandrailsbeinginstalledat height,increasingtheriskoffallsduringerection. The load carrying capacity of scaffold-based systems is generally

Generally,engineeredsolutionsareeconomicaltoassemble, disassemble,useandmaintain,andmaybedesignedforahigher load-carryingcapacity(withsufcientsupportframecapacity).They are more suitable for larger projects with more site room.

Engineereddeckunitsarepositionedandliftedbymechanical aids,suchasmulti-purposetoolcarrier,forkliftorcrane,thus reducing the risk of injury from manual tasks. Drop-in hand railing

systemsareeasilyinstalledatgroundlevel,reducingtheriskoffalls during erection.

However,engineeredsolutionsgenerallyhaveahighercapitalcost todevelop,manufactureorpurchase.Engineeredsolutionsareless exiblebecausetheremustbeaclearaccesswayof450mm.This limitsavailablespaceforstorageofmaterialsonthedeck(seeFigure 7below).

lowerthanengineeredsolutions,beingheldwithintheallowable limits for AS/NZS 1576.1:2010 Scaolding Part 1: General Requirements .However,scaffoldingmaybespecicallydesigned forhigherloads.Workplatformsdesignedforhigherloadsmust prominentlydisplayasignindicatingtheSLL. Scaffold-basedsystemsaregenerallymoreadaptableinallowing forincreasedsizeofstoreditems,notnecessarilybeinglimitedto thesizerequirementsof2400x1800mmformplysheets,whilst maintainingthenecessary600mmminimumaccesswidth. fw ppt t ti

Packsofformplysheetsmaybeplaceddirectlyonthejoistsofa formworksupportsystemundercertaincircumstances.Asection of the formwork support system may be a nominated loading area providing:

• thenominatedloadingareaiscertiedbytheengineeror formwork designer

• themaximumSLLoftheareaismarkedontheformwork drawings,togetherwithadditionalproppingrequirements

Figure 7 – Engineered loading bay. Note: Drop-in handrails in place, liting eyes, orklit slots, and built-in bearers

14

• anynecessaryadditionalpropsareinstalledandinspectedprior to loading

• aperimeterscaffoldisinplaceforfallprotection • theloadingareaissafelyaccessiblefromaperimeterscaffoldor other safe access structure

• alljoistsandbearersformingpartoftheloadingareaare adequatelysecuredinpositiontopreventafall,asdescribedin section4.1.8.3ofthisguide • layingtheformplydeckproceedsasdescribedinsection 4.1.8.3ofthisguide • astartingpointforlayingthedeckisclosetotheformply stack so as to minimise worker exposure to the risks of injury from manually handling the form ply sheets. 4.1.8.2

5. Coverorprotectallpenetrationsleftbehindtheleadingedge. Coversmustbesecurelyxedandclearlysignedtoindicatethey areprotectingapenetration(seesection4.1.10). 6. Nailorotherwisesecureformplytothejoistsassoonas practicable.

• Iftimbershavenotbeenxed,edgeprotectioncomplying withOHSWRegulations2010(Division13–Preventionof Falls),mustbeerectedleadingawayfromthesidesofthe leading edge.

• Onlypersonnelinvolvedintheconstructionoftheformwork maybelocatedintheformworkconstructionzone.Anyone not involved in this process should be excluded.

• Theleadingedgemustbefreeofoil,sawdustand obstructions to reduce the likelihood of slips and trips.

Tpia w t  a adi d

The following work system may be used to construct the formwork deck for typical multi-level construction. The work system is

specicallyintendedforsituationswheretheverticaldistance belowthedeckbeingconstructedisgreaterthan2m,butwiththe use of false decks may be used irrespective of the distance to the

oorbelow.

4.1.8.3

lai a  p d

Aformworkdeckmustbelaidinaprogressivewaythatincludesa method of preventing falls below the deck. This control measure is particularly important in situations where a false deck has not been

providedwithin2mbelowthelevelofthedecktobelaid,andthe potential fall distance is therefore greater than 2 m.

1. PlacebearersontheU-headsoftheformworkframesfromthe workingplatformprovidedimmediatelybelow.Securebearers topreventmovement,i.e.bynailingto,orwedgingin,the U-headsbeforejoistsareplacedontop.Noeccentric(uncentred)loadsshouldbeappliedtotheU-headsunless specicallyallowedbytheformworkdesigner.

400 mm

≤

1.8 m

≥

2. Placejoistsonthebearersinaprogressivemannerfromthe work platform located directly below the area to be worked

on,andspacedat450mmcentres(maximum)orsothatthegap betweenjoistsdoesnotexceed400mm.Securethejoists against any movement should a worker fall onto them.

1.8 m

≥

3. Secureanycantileveredbearersandjoiststopreventupliftor dislodgement prior to anyone working on them.

4. Layoutformply,orotherdeckmaterial,progressivelyas describedinsection4.1.8.3.Whereverpossible,thedirectionof theleadingedgeshouldbeperpendiculartothejoists,i.e. paralleltothebearers(referFigure8). • Formplyshouldbeplacedonthejoistswiththeinstaller located behind the sheet as it is positioned whilst standing on the previously laid sheet or work platform provided. If this is

doneconsistently,shouldapersontriporstumbletheywould fall onto the sheet and not from the leading edge.

• Planningshouldtakeintoaccounttheoptimumpositionfor theloadingbay,ordirectionofformplyplacementsothat laying out of the sheets starts at the loading bay where the

formplyisinitiallystacked,reducingtheneedformanual handling and carrying sheets.

Figure 8 – Maximum spacing o timbers around worker where alse deck is over 2 m below

Whereafalsedeckhasnotbeenprovidedwithin2m,formplymay only be spread on the joists where:

• aminimumoffourjoistsat450mmcentres(400mmgaps, totalling1.8m)arelocatedonbearersnexttotheperson, andthejoistsextendforatleast1.8mallround(seeFigure8). Therefore,intheeventofafall,thepersonwillfallontothejoists and be prevented from falling further

• layingtheformplysheetscommencesfromtheperimeter scaffolding or other edge protection that has been provided at

theperimeteroftheformwork,e.g.attheloadingbaywherethe form ply is stacked

• theformplyislaidinfrontofthebodysothatifthereisa stumble,thefallislikelytobeontopofthesheetsbeinglaid

15

• joistsarexedtopreventsidewaysmovement.Insome situations,theremaybeapossibilityofapersonfallingthrough thejoistsifthejoistsspreadastheperson’sbodymakescontact

sectionsareunavoidable,theformworkdesignerorengineer must consider the potential for people and stored materials to

causecantileverstopivot.Formworkdesignsmustindicatewhere

with them during a fall. This is more likely to be a potential

cantilevers are to be positively secured so that the weight of a person

hazardwhentheperson’sfallisinthesamedirectionasthe layofthejoists.Fixingjoiststopreventsidewaysmovementwill

or material does not cause the section to pivot.

minimise this possibility.

4.1.10

4.1.8.4

Ptati

Anypenetrationwherethereisariskthatapersonoranobjectcould

lai a ta d

fallthroughmustbecoveredorsecurelyguarded.Openpenetrations,

Ametaldeckshouldbelaidinaprogressiveway.Whereafalsedeck

suchasstairwellvoidsorpenetrationstoallowforservices,create

has not been provided within 2 m below the level of the deck to be

hazardsforanyoneonaformworkdeck.Apersonmayfallthrough

laid,metaldecksmayonlybelaidwheretheuseoffallprevention systemshavebeenprovided.Worksystemsfollowingthehierarchy ofcontrolsmustbeused.Examplesincludeelevatingworkplatforms, scaffolding,personalfallprotectionsystemsandanti-glaremeasures (refertoFigure9).

largerpenetrations,sustaininjurybysteppingintoasmallerpenetration,

4.1.9 cati qit

AS/NZS 4576: 1995 Guidelines or Scaolding requires that the design of cantilevered scaffolds and the adequacies of their supportingstructuresmustbeveriedforcompliancewiththe relevant requirements of AS/NZS 1576.1 Scaolding Part 1: General Requirements byacompetentperson,suchasanengineerwith experience in structural design.

Cantileveredbearers,joistsandplysheetscanbehazardouswhen left unsecured. The weight of a person standing on the cantilever

maycausetilting,resultinginthepersonormaterialfalling. Formworksystemdesignersshouldminimisetheuseofcantilevers wherepossible.However,insomesituationswherecantilevered

oranobjectmayfallthroughtheopeningontoworkersbelow.All penetrations must include cast-in metal mesh as a backup system.

Themeshshouldhaveasmallaperture(e.g.50x50mmmeshsize orsmaller),andbemadeofmaterialcapableofwithstandingthe potentialimposedload.Meshprovidedoverlargepenetrationsmay requireengineeringcerticationtoensureitcanwithstandpotential loadsincludingpeople,equipmentandmaterials. Whereholesarecutinthemeshforservicestopassthrough,the holeshouldbecuttotheproleoftheservicesothatmeshremains covering the penetration.

Ungradedplywoodcoversarenotadequatebecause: • thecovermaybeindistinguishablefromotherpiecesofply • itmaybedifculttodetermineiftheplywoodisproperlysecured • securedplywoodcoverscanbeunsecuredtogainaccessand subsequently may not be re-secured.

Figure 9 – Sae Work System or laying metal deck (Note:Fallpreventionsystems)

16

exap  i

“DAnger PeneTrATIon beloW” SLL where required

Dynabolt,orsimilar anchorage

100 mm (min)

100 mm (min)

Floorslab

Floorslab

Min17mmthick

50mmmeshcastincentrally

Figure 10 – Example o acceptable penetration protection

Plywoodcoversmustbe: • • • • •

Penetrationsarealsohazardousbeforethedeckislaid.Joists placed up to the edge of the penetration must be secured so that the

structurallygradedandsound aminimumof17mmthick paintedabrightcolour non-slip markedwiththewords‘DAnger PeneTrATIon beloW‘.

timbers cannot spread if a person falls on them. 4.1.11 Wi z   w ad th

Theformworkconstructionzonemustbesufcientlylargetoensure

Thecovershouldbermlysecuredtotheconcreteanddesigned forpotentialloadsthatmaybeapplied.RefertoFigure10foran acceptablepenetrationprotectiondesign.Beforestrippingformwork, ensure the penetration that will be exposed is securely covered and protected.

Zone for oTHer Workers

* r e i r r a b l a c i s y h P

that formwork areas are clearly separated from other work areas.

A‘formworkconstructiononly’zonemustbemaintainedbehind theleadingedge.Thiszonemustbeclearlydemarcatedbysignage andameshbarrier.Figure11illustratesthe‘otherwork’zone,the formworkzoneandthearearetainedasedgeprotection(fourjoists spaced1800mmbeyondthelaiddeck).

This distance may vary depending on work requirements formWork consTrucTIon Zone

*Reer to 4.1.7.1 Formwork construction zone physical barriers Figure 11 – End view o deck showing working zones

17

4.1.12

Changingoorlevels

Formworkdecksmaynotbeatacrosstheentireoor,dueto deepbeamsor‘dropdowns’(sometimescalled‘capitals’)around columns.Suchvariable,unevenoorsintroducetripandfallhazards duringformworkerection.Itispreferablethatthesehazardsare eliminatedatthedesignstage(seesection2.1.1‘Buildability’). Fallandtriphazardssuchasthesearemosteffectivelymanaged by ensuring that lower level formwork supports and decks are progressively constructed before work commences on the higherlevel areas of the deck. 4.2

formWork erecTIon – moDulAr

4.2.2 Taii

Workersinvolvedintheerectionofmodularformworksystemsmust be trained in the safe erection and dismantling of the system and the

inspectioncriteriaforcomponents,particularlyfordefectsthatwould preclude their use. The modular system supplier or designer should provide written instructions for the erection and dismantling of the system. Instructions should include safety instructions equivalent to those detailed in this guide.

Trainingbythemodularformworksystemsupplierisencouraged.For trainingrequirementsrefertoAppendix2.

formWork sysTems 4.2.1 bai da t

Thebasicprinciplesdiscussedinsection4.1ofthisguideon traditional systems apply to the erection of modular formwork

systems.Althoughtheerectiontechniqueandmemberdimensions mayvarygreatlybetweentraditionalsystemsandmodularsystems, the principles of maximum potential fall distance and gap width at the working level are applicable:

• thewidthofanygaponaworkinglevelisnottoexceed 400mmunlessafalsedeckhasbeenprovidedwithin2m of the working level

• workingplatformsusedformodularsystemsmustalsohave aminimumwidthof450mm.

4.3

sTrIPPIng formWork

Strippingformworkcanbeoneofthemosthazardousphasesof concrete construction.

Whilefallingobjectsaretheprimaryhazard,theremayalsobefall hazardsasaresultofoor,scaffoldorformworkcollapse,aswellas manualtaskhazardsfromapersonworkinginawkwardpostures, repetitivehandlingofmaterials,orlimitedtaskvariety. Workersmustbeinformedoftherisksandbeadequatelytrained, sothatstrippingoperationsarecarriedoutinanorderly,progressive manner,asoccurswithformworkerection. 4.3.1 ga w tippi

Bothmodularandtraditionalformworksystemsmustbedesigned to comply with the loadings and general principles of AS 3610: Formwork or Concrete.

To reduce the risk of injury when stripping formwork/fa lse work:

Traditional formwork systems are sometimes used adjacent and

• erectacatchdecknomorethan2mbelowtheworkarea • suitablybarricadeandsignpostthestrippingarea (withbarriermeshasaminimum).

connectedtomodularsystems,particularlyforunusuallyshaped areas.Wherethisisthecase,theformworkdrawingsshouldshow anyessentialconnectionordesigndetailsandbecertiedbyan engineerorformworkdesigner.However,componentsfromone proprietary type of formwork system should not be used as integral parts of other modular formwork systems unless the designer of the modular system states in writing that this is permitted.

Modularformworksystemsareoftenmanufacturedfromaluminium insteadofsteelandarethereforelighterinweight.Beinglightweight, theyrequirelessphysicalefforttoerectthantraditionalsystems,and alsotheneedforrepetitivehammeringmaybeeliminated,reducing workers’exposuretotheriskofinjuryfrommanualtasks. Becausemodularsystemsarelighterinweighttheymaybemore susceptible to overturning during erection when exposed to eccentric loading factors such as wind loading etc. This is generally an issue only prior to placement of the decking on the modular support

system.Toeffectivelycontrolanyinstability,modularformwork

• installfully-deckedworkplatformsataheightnogreater than 2 m from ground level or the catch deck

4.3.2 sa w thd tatt

Onlyanexperiencedandcompetentpersonshouldpreparesafe workmethodstatementsforthestrippingoperation.Properly prepared statements are very useful as a training tool for those who will be involved in this high risk activity. The safe work method statement should detail factors such as:

• thehazardsrelatedtothestrippingprocessandanyequipment and strategies to eliminate or minimise the risks

• thenumberofpeopleinthestrippingcrew • thesequenceofstrippingactivitiese.g.detailinghowtheframes and/orothersupportsaretoberemovedandhowfarU-heads may be lowered

• whetherthesupportsystemmaybecompletelyremovedina zonepriortoremovaloftheformworkdeck,orwhetherthe

systems must be progressively braced during erection in accordance

supports are to be lowered slightly but still remain under the form

withthemanufacturer’sinstructions.

ply while it is being removed

18

• whenback-proppingisrequiredoronlypartofthesupport systemistoberemoved,howthestructuralmembersareto remain in place and/or the type and layout of members that will replace the formwork system

• anyotherspecialrequirementsinvolvedinthestrippingand or building processes e.g. checking of back-propping after post-tensioning. 4.3.3 Certicationpriortostripping

Priortocommencementofthestrippingoperation,anengineermust providewrittencerticationthatformworkcanberemoved.This certicationshouldbebasedonanengineer’sspecicationsforthe building,thestrengthoftheconcretemixandthetimeperiodthat has elapsed since the pour.

Anengineermayalsoberequiredtohaveinputintothestripping safe work method statement to ensure the concrete element

doesnotfail,andmustprovidesufcientdetailonthestructural engineeringdrawingsasrequiredbysection17‘Formwork’of AS 3600 – Concrete Structures. Documentation from the concrete supplier verifying the concrete

specicationshouldbeavailableonrequest.Aconcretesampling and testing procedure should be in place to verify that concrete

meetsitsdesignspecicationforstrippingpurposes.Guidance on sampling and testing systems for concrete is provided in

4.3.6 bd dti

Strippingofformworkmaybeaidedbyreducingthebondbetween theformmaterialandtheconcrete.Bondstrengthisdependenton thematerialcharacteristics,thesmoothnessoftheformmaterial and age of the concrete. The use of a liquid bond breaker on wall and column forms is one way of reducing the strength of the bond.

However,theuseofbondbreakeronoorformsisnotencouraged becauseofthesliphazardthatmayresult. 4.4

crAne AnD oTHer loAD HAnDlIng sysTems

4.4.1 ladi atia di w tti

Formworkstructuresarenotnecessarilysafetoacceptanyexcess loadinguntiltheyarefully-secured.Thatis,untilafterthedeckisin placewithtie-insandproppingcomplete,andanyproposedloading areacertied. Inpractice,someloadingoccursbeforeadeckiscompleted e.g. unloading pallets of ply and joists on a partially constructed

formworkstructure,tocontinuethedeck.Thisisanunacceptable and dangerous practice which could lead to a full structural collapse

ofthedeck,possiblyresultinginseriousorfatalinjury.Toensurethe integralsafetyofthedeck,materialsmayonlybestoredwhereand whenthedeckiscertiedasabletobeartheload.

AS 1379:2007 Specifcation and Supply o Concrete.

Formworkersandcranecrewsmustbemadeawareofthespecic locationsandloadsforcertiedloadingareas,andthatstacked materialsmaycreatepointloadings,whichaformworkstructuremay

4.3.4 exi z

not be designed to bear at that point.

Onlythoseinvolvedinthestrippingoperationarepermittedinan areatobestripped.Strippingareasmustbecordonedoffand

Tominimisetheriskofcollapseandotherhazards:

signs displayed to keep non-essential personnel out of the area e.g. ‘DAnger – formWork sTrIPPIng In Progress – AuTHorIseD Persons only’.

Itispreferabletorestrictaccesstothewholeoorwheresoft strippingistakingplace.Thiswouldnotonlybesafer,butalso reduces the quantity of signage and barricades required.

Whereothertradesorsub-contractorsarerequiredtoworkonthe sameoorduringthestrippingofwalls,columnsorsmallsectionsof soft,theprincipalcontractororemployermustensurethatcontrols are applied to prevent non-essential personnel from entering the stripping area. 4.3.5 Dp tippi Drop stripping is an unsafe method of work and cannot be supported by this guidance document. In cases where drop stripping is being

considered,theformworkandsupportdesign,andtheconcrete elementdesign,shouldbereviewedbythedesignerandmodiedto eliminate drop stripping.

• loadsmustnotbeplacedontheformworkdeckifthe formwork documentation prohibits loading

• formworkdrawingsmustclearlyidentifythelocationsand SLLformaximum(pre-pour)pointloadingsforthedeck.These locationsmustbespeciedbyaformworkdesignerorengineer • cranecrewsmaynotliftmaterialsontothedeckuntilthereisa designatedliftingzone • cranecrewsmustbenotiedwhenanareaofdeckisreadyto takeaload,andspeciedloadsmayonlybeplacedinthearea/s designated and placed so that they cannot fall

• deliveryofmaterialstothesiteshouldbeplannedsothatloads are not lifted onto unsecured decks

• priortoworkersleavingthesite,materialsandequipmentshould be secured to prevent them being moved by wind. 4.4.2 sii ad

Slingingandun-slingingloadsatheightisalwaysahighriskactivity. Safeworkmethodsandfallpreventionsystemsareessentialforthis activity(refertosection4.1.8.1) Adogman,orotherpersonengagedinslingingloads,mustbe provided with adequate fall protection and a safe means of access 19

when working at 2 m or more above the deck. The use of fall arrest systems for workers slinging formwork

loadsisusuallyimpracticalandisnotrecommended.However,it maybereasonablypracticabletotplatformsandedgeprotection as fall protection. 4.4.3 liti a

Guidanceontheuseandinspectionofchains,wireropesand synthetic slings is provided in the following publications:

• AS 2759: 2004 Steel wire rope – Use, operation and maintenance • AS 3775.2: 2004 Chain slings – Grade T Part 2: Care and use • AS 1353.2: 1997 Flat synthetic webbing slings Part 2: Care and use.

• Liftingboxesintendedforliftingpeoplemustbedesign registeredwithSafeWorkSAandsuitablyconstructedforother material being lifted.

• Fourchains(oneineachcorner)mustbettedtoliftboxesto maintain stability.

• Liftingboxesmustbeinspected,maintained,andinspection records kept.

• Specically-designedliftingboxesshouldbeusedtoliftsmaller components(e.g.spigots,U-heads,baseplatesandcouplers). Boxesmusthaveenclosedsidesorrobustmesh(withopenings lessthantheminimumsizeofmaterialsbeinglifted). • Loadscontainedwithinliftingboxesshouldbesecured against movement.

• Materialsmustnotbestackedhigherthanthesideofthebox unless they are adequately secured.

• Formworksupportframesmusteitherbetiedtogetheror

Basicitemsthatneedtobecheckedinclude: • liftinggearistaggedandallrelevantinformationlisted (e.g.relevantinformationforachainslingisgradeofchain, safeworkingload,manufacturer,chainsizeandAustralian Standardmarking) • liftinghookshaveoperablesafetylatches • liftingeyesandinsertsarecompatible • liftingslingsareserviceableandnotdamaged(i.e.haveno excessivewear,damagedstrands,cracks,deformationand/or severecorrosion) • syntheticbreslingsaremaintainedingoodcondition,arerated fortheloadbeinglifted,haveasuitableslingingconguration

secured with lifting slings wrapped around the load.

• Loadsofjoistsorbearersshouldbestrappedtogether before lifting.

• Taglinesmustbeusedtocontrolloadsandforms,andmust bexedtotheload,nottheliftinggear. • Formplyloadsshouldbestrappedtogetherandliftedina atposition. • Ensure,wherepossible,thatallloadsaresupportedondunnage and the load is uniformly distributed over the supporting surface.

Priortoliftinganyitems: • removeanywasteconcreteetc.fromformsoranyother materials or equipment to be lifted to ensure the waste does not

and are protected from sharp edges.

Itismostimportantthatallliftinggearincludingslings,hooks,wire ropes,pendantsandmaterialboxesareperiodicallyinspectedfor

fall onto people below

• inspectallloadscloselytoensureallloosematerialsandtools have been removed.

damage and wear. The period between inspections may depend on the severity of use with the exception of:

4.4.5 liti 

• chainslings,whereinspectionsmustnotexceed12months • syntheticbreslings,whereinspectionfordamagemustbe

Chainslingsattachedtolugsorholescutintopartofaloadareoften usedtoliftbins,wall,liftwellorcolumnforms(insteadofwrapping theliftingslingsaroundtheload).Informationverifyingthestructural

undertaken before each use and full inspection at least every

threemonths.Refertosection9of AS 1353 .2: 1997 Flat synthetic webbing slings, part2:‘Careanduseforinspection items’andsection11for‘DiscardCriteria’. Documented maintenance records for the lifting gear should be

adequacy of the lifting points must be available.

Anengineermustverify: • thestructuraladequacyoftheliftinglug • themeansofattachmenttotheload(usuallyweldedorbolted).

available for inspection on-site. 4.5 4.4.4 liti w atia

• Crane-liftedloadsmustbeslungandsecuredsothattheload (oranypartofit)cannotfall. • Weightsofwall,liftorcolumnformsshouldbeprovidedon-site with formwork documentation and made available for inspection by all interested parties.

• SLLsmustbeclearlymarkedonbins.

20

use of lADDers

Laddersmustbesecuredatthetoporbase,orwhenthisis impractical,heldrmlyatthebasebyanotherperson. Wherepracticable,alternativestoladderssuchasworkplatformsor stairaccesssystemsmustbeused.Fixedorpermanentladdersmust comply with AS 1657 – Fixed platorms, walkways, stairways and ladders – Design, construction and installation .

Whereladdersareprovidedasaccesstoalivedeck: • theymustextendatleastonemetreabovetheaccessed surface,besecuredagainstmovementandbesetuponarm,

• undercuttypeanchorthatdoesnotrelyonfrictiontofunction • expansionanchorsofthehigh-loadslip,torquecontrolledtype • coilbolts.Thecorrectoperationofcoilboltsisgreatlydependent on whether they are installed in accordance with a

level surface

manufacturer’sspecications(e.g.drillingthecorrectsizedhole andapplyingthecorrecttorqueinconcreteofadequatestrength).

• theymustbeofindustrialstandardwithaloadratingofat least 120 kg

• singleandextensionladdersmustbeplacedatanangleof between70degreesand80degreestothehorizontal (‘4up,1out’rule),exceptinsomeraresituationswherethis is impractical

• singleladdersmustnotexceed6.1minlengthandextension laddersmustnotexceed7.5m. Otherissuesregardingthesafeuseofladdersinclude: • metalormetalreinforcedladdersmustnotbeusedinthevicinity ofliveelectricalequipment.TheOfceoftheTechnicalRegulator (OTR)providesinformationoncompliancewithsafeworking distances in the vicinity of live electrical wires

• nevertouchaladderthatisincontactwithelectricalpowerlines • aperson’sfeetmustalwaysbemorethan1mfromthetopof the ladder

• laddersarenottobeusedonscaffoldingorelevatedwork platforms to gain extra height

• laddersmustnotbepositionedaboveoradjacenttoopeningsor edgeswhereapotentialfallcouldoccur.Aworkplatformwith edge protection should be used instead

• laddersshouldnotbeusedinaccesswaysorwherethereis pedestrian,vehicularormobileplanttrafcunlessarisk assessment has been undertaken and other precautions have been considered

• alwaysmaintainthreepointsofcontactwhenusingladders.

5. 5.1

spia qit  wa ad  

Drill-intypeanchorsmayhaveaspecicinstallationtorqueset requirement to function correctly. Torque measurements should be

madeusinganaccuratelyadjustabletorquewrench.Analternative method that may be used to verify the torque could be a calibrated

‘rattlegun’.Recordsverifyingthesettingtorqueforalldrill-intype anchorsshouldbeavailableon-site.Manufacturersnormallyspecify the minimum distance from a concrete edge that an expansion anchor may be installed. 5.2

Access PlATforms

Mobilescaffolding,purposebuiltworkplatformsorelevatingwork platforms may be suitable in providing the essential safe access to

elevatedworkareasfordogmen,steelxersandconcreters.Edge protection must be provided on any access platform.

Platformsmustbedesignedtoprovidesufcientaccessandworking spaceforthenumberofpersonnelrequiredforspecictasks,and must be positioned at a height and distance from the form so as to

minimisereachingandstretchingmovementsandlimitaperson’s necessary exertion.

Concretepouringsystemsmustprovideadequatesafeworking space,withedgeprotectionprovided,forallworkers. Castorsonmobileworkplatformsmustbelockedatalltimesexcept when they are being moved.

Allplatformsmustbedesignedforstabilityandresist ancetoany sideloadingthatmaybeappliedduringaconcretepour.Lightweight aluminium scaffolding may not have adequate stability when subjected to side loading and may require additional bracing.

brAcIng for WInD loADIng

Wallandcolumnformsmustbedesignedtowithstandalllive anddeadloads,includingwindloadpriorto,during,andafterthe concrete pour. The bracing and forms must not be removed from

thecastelementuntilitissufcientlymaturetosafelywithstand potential impact loads and wind loads.

Priortostripping,anengineerorothercompetentpersonmust providewrittencerticationthattheformworkcanberemoved. Bracingmustbedesignedtosuititsapplicationandveriedbythe designer(refertosection2.2.1).Bracingelementsmustbedesigned and installed to resist both positive and negative wind generated

loads.Bracinganchorsshouldpreferablybecast-intypeor‘throughbolts’thatextendthroughbothsidesoftheanchoringmedium. Drill-inanchorsofthefollowingtypemaybeused,providedtheyare installedinaccordancewiththemanufacturer’sinstructions:

5.3

lIfTIng meTHoDs

Wallandcolumnformsmayonlybeliftedwithapositivelifting system,suchasliftinglugsorbywrappingliftingslingsaround theformsuchthattheformcannotslipoutoftheslings.Purpose designedliftinglugsmustbeusedwhereverpracticable(referto section4.4.5). Anengineermustprovidedocumenteddesignsforwallandcolumn formliftingpoints,andthedesigndocumentationshouldbeavailable on-site.Whereliftinglugsareattachedtotheform,anengineermust specifythexingorwelddesign,andthemanufacturermustensure and certify that the attachment or weld complies with the design requirements.

21

Formingliftingpointsbycuttingholeswithoxy-acetylenetorchesis unacceptable and must not be used as:

• • • •

6.

theloadcarryingcapacitycannotbeguaranteed itmaydifculttoattachliftinggear positioningoftheholemaybeinaccurate theformmaybedamaged.

spia qit  ip  ad p 

• specifyandprovidesafeworkmethodstatementsformanual handlingofshuttersandothercomponents,e.g.theuseof cranes to lift shutters and provision of safe access for workers attaching slings to shutters

• ensureadequateventilationandlightinginallworkareas • provideadequateamenitiesforworkersgiventhatslipform operations often continue for extended shifts

• alwaysuseHotWorkPermitsforslipformandjumpformsystems • ensuresufcientreextinguishersareprovided • ensureemergencyprocedures,includingfortheretrievalofan injured or incapacitated person from any work area located

Thissectionappliestoslipforms,jumpformsandcrane-liftedforms that incorporate working platforms and enclosed cells in which people are required to work.

Slipformsandjumpformsaretermsgiventoself-climbingformwork systemsspecicallyintendedtoconstructconcreteservicecores, walls and columns in high rise buildings and other concrete

withinthestructurearedeveloped,implementedandtrialled. It is acknowledged that it may not be practicable to provide an access system and working environment on a jump form or slip

formthatisofthesamestandardaselsewhere.However,anyone incontrolofaproject,taskorworkersmustcomplywiththeir obligationsundertheOHSWAct.

structuressuchassilosandchimneys.Inslipforms,theclimbing is usually carried out continuously during the concrete pour which

maybecompletedtofullheightinonepouringoperation.Withjump forms,theclimbingisdoneinsteps,liftingthecompleteformunitto thenextlevelfollowingeachconcretepour.Theterm‘climbingform’ isalsousedtodescribeeitheraslipformorjumpform.Climbing operations are usually powered by hydraulic rams or electric motors connected to climbing feet or screw shafts.

Slipformsandjumpformsusuallyconsistofanumberofdecksand mayalsobettedwithtrailingscreensthataresuspendedfromthe form.Aswithperimeterscreens,trailingscreensmay: • provideedgeprotection • preventmaterialsfromfalling • providesupportforworkplatforms,oracombinationof these uses.

Notwoslipformsorjumpformswillnecessarilybeidentical,astheir designwillbebasedonthesizeandcongurationofthestructureor building under construction. The work systems and layout of some crane-lifted forms may also be similar to those associated with slip forms and jump forms. This may be the case for crane-lifted forms provided for the inside of lift

shafts.Whilemostoftheinformationinthissectionappliestoslip formsandjumpforms,someoftheprinciplesmayalsoapplyto crane-lifted forms.

Whendesigningandoperatingthesetypesofformsystems,the following issues must be addressed:

• providesafeaccesstoallareasandworkplatforms • controlrisksassociatedwithworkingatheight • developsafeworkmethodstatementsandusingthemtotrain workers in the safe operation of slip and climb form systems

• providesufcientworkingspaceandheadroom

22

6.1

Access AnD egress

Accesstoslipformandjumpformsystemsma ybeprovidedina variety of ways including one or more of the following:

• • • •

personnelandmaterialhoistsonthebuilding permanentstairsystemsinthebuilding atrailingstairsystemsuspendedfromtheslipformorjumpform atrailingladdersystem.

Atrailingstairsystemispreferableto aladdersystemasitiseasier toascendanddescend,andemergencyevacuationisgenerallysafer and easier on a stair system. The access area between the trailing

accesssystemandthebuildingmustbeclearoftriphazardsand thereshouldbenogapsexceeding50mmwidebetweenplatforms. The formwork designer must ensure that a trailing access system is designed for additional loads that could be applied in an emergency evacuation situation. The design must ensure that not only the

strengthoftheformsystemitselfisadequate,butalsotheformwork structure safely supports any applied loads from the access system.

Atrailingstairaccesssystemshouldbedesignedforalo adof atleast2.5kPaunlessthedesignerspeciesotherwise.Where thedesignerspeciesalesserliveloadthan2.5kPa,thefollowing applies:

• asignstatingthemaximumloadlimitmustbexedtothe stairs in a visible position

• writtenproceduresmustbeimplementedtoensurethetotalload limit is not exceeded.

Laddersmustbesecuredinplaceandbeplacedatanangle between70and80degreestothehorizontal,wherethisispractical. Accessopeningsforladdersonworkingdecksshouldbeprovided withtrapdoorsthatareclosedwhennotinuse,easilyopenedfrom above,anddonotcreateatriphazardonthedeck.

Accesswaysshouldbekeptfreeofmaterials andrubbishtoprevent objects falling to the level/s below. 6.2

Work PlATforms

Division13–PreventionoffallsoftheOHSWRegulationsspecies requirements for work platforms. These requirements also apply to

6.3

TrAIlIng screens AnD PlATforms

Trailing screens can provide edge protection and a means of preventing falling objects. They can also be designed to support

lower,suspendedworkingplatformsforrepairingorpatching concrete,andtoprovideaccessforanyoneclimbingtheform.The formworkdesignerwillneedtospecicallyaddressanddocumentall

slipformsandjumpforms.However,thefollowingpointshighlight specicissuesthatmayapply:

issues for which the trailing screen system is designed. The design

• Whenplacingsteelorpouringconcreteintoaform,controls

• Theremustbeasuitabledesignloadingforanyplatformson thetrailingsystem.Asaguide,platformsmustbedesignedto supportaminimumloadof2.5kPa.Adesignermayreduce

must be implemented that prevent a person falling into or from the form. The risk of this is higher when the form is greater

must address the following:

than225mmwidepriortoplacementofreinforcingsteel. Workersmustalsobeprotectedfromtheriskofbeingimpaled onprojectingreinforcingbarsorotherobjects.Suitablecontrols

this if the number of people is strictly limited and controls are

implementedon-sitetoensurethespeciedloadisnot exceeded.Ifthedesignloadislessthan2.5kPa,thismustbe statedindocumentationkepton-siteandsignsmustbexedto

may include edge protection on the internal side of the working

platform,orreinforcementmeshtemporarilyplacedontopof theform,enablingthesteeltobefedthroughthemesh(see Figure 12).

the platforms stating the maximum load permitted in kilograms.

Sitepersonnelmustbemadeawareofandcomplywiththe maximum loading that applies to the trailing platform.

• Strategiesmustbeimplementedtoadequatelycontrolthe riskfromfallingmaterials(seesection5forfurtherguidance). • Allplatformsmustbesecuredtopreventupliftoranyother unplanned movement.

• Ariskassessmentofaformsystemmustincludetheneedfor, anduseof,laddersandedgeprotection.Thesystemmustmeet therequirementsoftheOHSWRegulations. • Apersonmustnotrideontrailingplatformswhiletheplatforms are being crane-lifted. If access or work is required whilst a

cranesupportsthetrailingplatform,anotherworksystemmust be devised. This could involve another crane with a regis tered

Figure 12 – Mesh used as all protection on wall pour

workbox,oraseparateaccessscaffoldsystem. • AnyworksystemchosenmustcomplywiththeOHSW Regulationsandincludesafeworkmethodstatementsbasedon riskassessment,withriskcontrolstrategiesbasedonapplication of the hierarchy of control.

• Thedesignandconstructionofplatformsmustincludepositive xedsecuritysothatjammingormovementcannotoccurunder eccentric loads e.g. where work platforms have a trailing screen

ononesideandaresupportedbyabuildingparapetontheother, uplift may occur from wind loading or where a platform is not

levelandisunsecured.Ifthisoccurs,theplatformmayjamor otherwisemoveundertheunbalancedload,causingaperson to fall.

6.4

clImbIng THe form

Climbingisusuallycarriedoutusingaseriesofclimbingdevices set up to lift at the same time and at the same rate. If the lifting system is not properly synchronised the form may become wedged

onthestructure,orstructuralmembersmaybeoverloadedand become unstable.

• Whereindividualcellsofaformareclimbedatdifferenttimes,

There should be a systematic approach to ensure that the form

edge protection must be provided separately on each cell.

remains within level tolerances during the climbing process. The

• Safeworkmethodstatements,developedforallhigherrisk aspectsofslipformorjumpformsystemsandaccesssystems, will assist in ensuring safe systems are implemented and provide a sound training aid for workers engaged in this activity.

system may be automated or may rely on operators stopping each

individualdevicecontrollingtheclimbingprocess.Whicheverprocess isused,thefollowingmustbeobserved: • Asafeworkmethodstatementmustbedevelopedtotrain personnel and manage the climbing process.

23

• Onlythoseworkersdirectlyinvolvedwiththeclimbingprocess may be on the form during the climb.

• Anypotentialniporshearpointswhereapersoncouldbeinjured duringtheclimbmustbeidentiedandcontrolled. • Allobstructionsandlooseitemsontheformaretoberemoved priortoclimbing.Aninspectionchecklistand‘sign-off’procedure for this should be implemented. Items typically left on forms

includeZ-bars,ferrulebolts,insertanchors,coversand hand tools.

• Itisimportanttoensurethedifferentpartsoftheformremain level during the climbing process.

• Electricalcables,waterandotherpipedservicesshouldbe

• communicationandremoteworksystems–nopersonistowork aloneand‘buddy’systemsaretobeencouraged. RefertoAppendix2forothertrainingindifferentareas. 6.6

HeAlTH Issues AnD AmenITIes

Safeaccessandadequateventilationtoallcellsmustbeprovided inclimbingformsystems.Extendedperiodsinhotandcramped workingconditionscreateadifcultworkingenvironmentandthese issues should be considered during planning and job design. It may be necessary to specify job rotations or maximum times spent in

cells,dependingontemperature,humidity,cellsizeandtheparticular

designed and installed so that they will not catch or rupture as

activities being undertaken. Time limits and job rotation should be

the form is climbed.

considered in consultation with workers when developing safe work

Formsmustbeeffectivelysupportedatalltimesduringclimbing operations,particularlywhenremovingaformfromavertical element.Seriousincidentshaveoccurredwhenithasbeenassumed thataformissupportedfromacrane,whenitisonlyrelyingon ‘throughbolts’forsupport. Inoneincident,whentheboltswereremoved,theform-to-concrete

method statements.

Duetothenatureoftheworkandtheworkenvironment,the provisionofadditionaldrinkingwatersupplies,toiletsandamenities may also be required. 6.7

engIneerIng Issues

adhesive forces failed a short time later. The form fell while workers

The design of climbing form systems is more complex than formwork

were still standing on a platform attached to it.

systemsforoorsandincludestheconsiderationofwindloadingand otherstressesgeneratedduringclimbing.Suchformworksystems requiregreatertechnicalandengineeringinput,andmustbe classiedasnon-basic,withanengineerasthedesigner.

Thishazardappliestobothcrane-liftedformsandjumpforms, whichmustalwayshaveapositivemeansofsupport.Workersmust never be in a position where they rely on formwork adhering to the concrete surface for support.

The climbing form designer must be involved in both the design of

theformandindevelopingsafeworkmethodstatements,sothatany 6.5

TrAInIng

Slipformandjumpformoperationsrequirespecialisedworksystems andpresentuniquehazardstoworkers,requiringspecictraining

ongoing design issues occurring during form erection over the life of the building project are addressed.

Somedesignproblemsassociatedwithclimbingformsystemsmay

and specialised safe work method statements for personnel working

not become apparent until the job is in progress and system design

on the forms.

changes may be necessar y. Designers and principal contractors

Trainingandthedevelopmentofsafeworkmethodstatements, shouldinclude,butnotbelimitedto: • themaximumloadingsthatcanbeappliedtothevariousareas on the form. This would include information about areas where materials can be stored

• restrictedaccessareasandproceduresfortheinstallationand removal of edge protection

• sliporjumpingproceduresforthoseinvolvedintheseoperations • requirementsfortheapplicationofHotWorkpermits • emergencyevacuationproceduresforthoserequiredtoworkon the form

• reghtingprocedurestobeusedinemergencysituationsprior toreghtingpersonnelarrivingatthescene • anyotherspecialworkproceduresthatspecicallyapplyto workingontheform,e.g.timelimits(wheretheseapply)for working in cells or safe undertaking of manual tasks

24

must implement consultative arrangements that include regular

inspectionsoftheworksduringaclimb,andconsultationwiththose involvedintheoperationtoidentifyanydifcultiesorsafetyissues. Section2ofthisdocumentdiscussesengineeringissuesassociated withformworkingeneral.Inadditiontothoseissues,thedesigner must address the following factors for climbing systems:

• minimumconcretestrengthrequiredpriortoclimbing • allowanceforallloads,includingallliveanddeadloadsthatmay be applied to the form system such as:

− loadscreatedbyworkers,impactloadsfrommaterialslifted onto the form and concrete-placing activities − the effects of additional and eccentric loading during climbing

• themaximumallowableskewduringaclimb,andany procedurestoeitherminimisethepossibilityofthisoccurring,or rectify a situation if forms do become skewed

• anyeffectrescueproceduresmayhaveonthedesignor operationoftheform.Rescueproceduresmayrequireaccess toalllevelsoftheformandcells,eitherthroughtheprovisionof gates or by removal of panels on the form.

Inremoteareas,amorethoroughriskassessmentmustbecarried out for emergency rescue.

Whereaformcanbeaccessedusingcraneson-site,adesignregisteredrstaidboxforemergencyrescueofaninjuredand

Anyspecicriskcontrolrequirementsmustbedocumentedinthe

incapacitated person/s must be readily available and accessible at all

safe work method statements.

times while work is being undertaken.

6.8

Bothdesignersandthoseincontrolofasiteortaskmustconsider

emergency Issues

the effect the formwork design may have during an emergency

Fireextinguishers,hosesandothermeansofrepreventionand control must be provided on climbing forms in accordance with

relevantlegislation.Emergencyproceduresmustbedeveloped, documented and implemented and all personnel must receive

trainingontheprocedures.Alistofthosewhohavereceivedtraining mustbedocumentedandkept(referFigure13). The emergency procedures must include as a minimum:

• methodsforalertingworkersintheeventofanemergency • methodsandtimingforevacuatingworkersfromeachlocation or cell

• • • •

rescueproceduresintheeventofseveremedicalconditions whoisresponsibleforensuringevacuationtakesplace personnelintheemergencyresponseteam trainingrequirementsforanyoneinvolvedinrescuingothers,

response,aswellastheirongoingresponsibilityduringconstruction. Safelyremovinganimmobilisedorunconsciouspersonduringan emergency evacuation of a formwork cell needs to be considered and planned for. This may include creating emergency a ccess holes

anddoorwaysthroughdecksandscreens.Proceduresmustidentify howtoaccesslift-voidsandotherareas,includingcellswithinthe core,whichmayhavelimitedaccess. Emergencyservicescontactsmustbeclearlyidentiedandbe prominentlydisplayedon-site.Allpartieson-site,includingthe principalcontractor,sub-contractorsandworkers,mustagreeonthe nominated emergency service contacts.

where outside experts cannot be responsible for performing the rescue

• trainingintheuseofreextinguishers • evacuationmusterpointsbothonandofftheform.

Figure 13 – First aid, fre control and emergency retrieval equipment on-site

25

7.

fai t

Containmentscreensmaybesupportedbythebuildingorstructure, orbyspecicallydesignedscaffolding.Thescreenscanalsoactas

7.1

HAZArD conTrols

perimeter fall protection on a top working platform. To fully comply

Hazardsfromfallingobjectsaresignicantandcanbepresent wheneverworkersandothersareerecting,alteringorstripping formwork,whenslippingandjumpingformworkoperationsare occurring,andalsowheneverloadsareliftedoverworkareas. Anyoneincontrolofaworksite,workareaortaskhasanobligation to control any risks from falling objects where workers or any other person could be injured by a falling object during formwork activities.

Evensmallobjects,suchasboltsorconcreteaggregate,falling fromheightcancauseseriousinjury.Controlmeasuresmustaimto preventobjectsfromfallingor,ifthisisnotreasonablypracticable, prevent injury if an object has fallen.

Inparticular,whenerectingordismantlingformwork: • close-offadjoiningareastonon-essentialpersonneltoprevent objects falling on or hitting people

• erectperimetercontainmentscreensforeachpartofthebuilding from where objects could fall

• ensurecontrolmeasuresareinplacetopreventscreen componentsfromfallingduringerection,extensionorreduction of perimeter containment screening.

withtheserequirements,thescreensmustextendatleast2mabove the working surface.

Whenformworkisbeingerectedordismantledimmediatelyadjacent toscreens,theymustextendaminimumof2mabovetheworking deck/stripping area to provide a higher level of protection for the public and for those workers outside the building area.

Whenselectingcontainmentscreens,considerationmustbe given to its:

• abilitytosupportorcontainimposedimpactloads,including buildingmaterials,equipmentandwastematerials • resistancetowindloadsonthesupportingstructure • requiredfrequencyofinspection • chemicalreactivity,includingammability • ventilationrequirements(referto AS 1668.2: 2002 The use o ventilation and airconditioning in buildings – Ventilation design or indoor air contaminant control forguidance) • lighttransmissionrequirements(referto AS 1680:1976 Code o practice or interior lighting and the visual environment for guidance) • degreeofprotectionprovidedfromrainorwashing down operations

7.2

PrevenT THe objecT from fAllIng

Controlsmustbeappliedatthesourcetopreventobjectsfrom falling;thatis,eliminatetherisk.Thisisthemosteffectivecontrolto prevent injury or death caused by falling objects. Good housekeeping practices are the most effective way of

preventingsmallobjectsfromfalling.Ensureitemsarecleanedup andkeptawayfromedges,voidsandpenetrations. The recommended control measure to prevent objects from falling outside the structure is the use of perimeter containment screens. The screens are effective as a control measure from falling objects for the protection of the public in adjoining areas as well as for safety

• patternandfrequencyofxingpoints • gapscreatedbyaxingmethod. Containmentscreensmustremaininpositiontopreventany objectfallingforthefulldurationofformworkoperations–from commencingformworkerectionuntilsoftstrippingiscompleteand allmaterialsareremovedfrom,orstackedon,theoor. 7.3.1 s hiht at idi tp-i

Asstatedabove,perimetercontainmentscreensmustextendabove the formwork erection area so that materials cannot fall to the

ground,orontootherworkortrafcareas.

and protection on-site.

Wherethehorizontalsurfaceunderconstructionstepsinfromthe overallbuildingperimeter,e.g.foraplantroomonabuildingroof,

7.3

the perimeter screens must be erected to a height that will prevent

PerImeTer conTAInmenT screens

Perimetercontainmentscreensareprotectivestructuresxedto theperimeterofabuilding,structureorworkingplatform.Their essential purpose is to prevent objects and people from falling

outsidetheworkarea,signicantlyreducingtheriskofinjuryto workers and the public.

Screensshouldbeusedduringthefullconstructionprocess, especially during formwork erection or stripping. They are usually sheeted with:

• timber • plywood • metalorsyntheticmesh. 26

any materials falling to the ground from the top of the stepped-in structure.

Oneexampleofanacceptablemethodtopreventfallingobjects reachingthegroundisillustratedinFigure14.Inthisexample,the outsideedgeofthesteppedinstructureis‘W’metresfromthe perimetercontainmentscreenandtheliftheightis‘H’metres. Topreventanobjectfallingfromthetopofthestepped-instructure, orbeingejectedfromthetoplevel,andfallingtothegroundoutside thebuildingperimeter,theheightofthescreenshouldbesuchthat the angle of an imaginary line from the top of the screen to the top

stadad 950  had ai

s s e e r r t t e e m m H H – – t t h h g i i e e H H t t f i f i L L

Maximumangle 45º no-go AreA witht ptti  ai t

m u m m m i i 2 n 2 n i i m m

Step-in width – W metres

Edge o “Step-in” structure

Perimeter containment screen

Figure 14 – Height o perimeter screen or protection rom alling objects on the ground at building step-in

oftheformworkplatformrailisamaximumof45degreestothe horizontal,withaminimumacceptablescreenheightof2m. Th aati  th qid  hiht i:

Catchplatformsmustbedesignedbyanengineertoresistimpact loadslikelytobeapplied(i.e.frombearers,formply,propsetc). Wherechainisusedtosecurecatchplatforms,itmustmeetthe requirementsofAustralianStandardswithaknownloadlimit.

s Hiht (t) = (H + 0.95) t – W t (with a ii apta hiht  2 )

Non-essentialpersonnelmustnotenterthe‘No-Go’areanexttothe

8.

Hath 

step-in unless positive controls are in place to prevent anyone being

8.1

noIse

struck by falling objects e.g. catch platforms or further screening. 7.3.2 Pit  ap

Topreventmaterialfromfallingbelow,gapsbetweenperimeter screensandtheformworkdeckoroormustnotexceed25mm. This can be achieved by:

• installingpermanentlyxedplycovers • installingcatchplatforms–removableshieldsthatare connectedtoscreens,withprocedurestoensuretheadjacent area is cleaned up before the shields are removed.

Coversmustbedesignedforpotentialloadings,suchasloads applied by workers and the impact loadings of falling materials.

TheymustalsobemarkedwithaSLLiftheycanbeaccessedas a platform.

Catchplatformsdeectfallingobjectsbackintothebuilding, preventingthemfromfallingfurtherdownthegap.Catchplatforms must be attached to screens by a system that ensures that they do not dislodge and fall when the screens are lifted. The system must be

sufcientlyrobusttowithstandanyworkplaceenvironmentimpacts.

Division10–NoiseoftheOHSWRegulationsdescribeswhatmust be done to prevent risks from exposure to excessive noise at work.

TheApprovedCodesofPracticeundertheOHSWActare: • National Code o Practice  or Noise Management and Protection o Hearing at Work [NOHSC: 2009 (2004)] ,3rdEdition(available fromtheSafeWorkSAwebsiteatwww.safework.sa.gov.au) • AS 1270: 1988 Acoustics – Hearing Protectors . TheCodesrequireallworkerstobeprotectedfromtheriskofnoise inducedhearingloss(NIHL)duringtheirwork.Ifnoengineering solutionisavailable,eitherearplugsorearmuffscanbeused. Activitiessuchastheerectionordismantlingofformworkmay involveveryloud,metalonmetalimpactnoises,suchasusing hammersonmetal.Suchnoisecandamagehearingimmediately becauseofitshighimpulsivenoiselevel.Otherloudnoise,suchas thatcreatedwhenusingacircularsaw,cangraduallydamagea person’shearingthroughlongerperiodsofregularexposure. The use of the hearing protectors must be enforced where a risk

assessmentidentiesthemasthepreferredoptiontocontroltherisk. 27

Often,constructionsitemanagementimposesablanketuseof hearingprotectionacrossthesiteatalltimes.Forformworkactivities, protectionagainstNIHLbywearinghearingprotectorsisoftenthe

information about preventing or minimising exposure to risks that

only option.

manualtaskrisksavailablethroughwebsitesinallotherAustralian jurisdictions,andgloballyintheUK(www.hse.gov.uk),Europe (http://osha.europa.eu/en)andCanada(http://www.ccohs.ca/).

8.2

DusT AnD ATmosPHerIc conTAmInAnTs

Division17–VentilationoftheOHSWRegulationsdescribes obligationsthatmustbemetforatmosphericcontaminants,including silica dust.

Whileconcreteitselfisnotahazardoussubstance,highlevelsof silicadustcanbeproducedduringformworkprocesses.Silicadustis ahazardoussubstancegeneratedwhenpowertoolscut,grind,chip, scrape,crushorblastmaterialssuchasconcrete.Silicadustmay alsobecreated,toalesserdegree,bysweepingorcleaningwhen dismantling building equipment or during demolition work. The visibility of dust does not necessarily provide an accurate

measureofthedegreeofrisk.Highlyvisibledustcausedby earthmoving equipment on building sites or other earthworks sites is

unlikelytocontainhazardouslevelsofrespirablesilicadust.However, silicadustproducedbyotheractivitiesmaybeathazardouslevels even though it is barely visible.

Allreasonablestepsmustbetakentominimisethee xposureto silicadust.Silicadustthatisgeneratedduringformworkcanbe controlled by:

• usingdustextractionorawetprocessasadustsuppressant engineering control

• providingrespirators(asalastresort)wheredustislikelyto exceed permissible levels. 8.3

mAnuAl TAsks

In2008/09,thereweremorethan2,270workerscompensation claims in the construction industr y. These resulted in more than

$13.3millionincompensationcostsandover38,000daysoflost time.Theindustry’suninsurablecostsassociatedwiththeseinjuries wouldhaveamountedtomorethan$53million. Oftheinjuries,730(32%)weremusculoskeletalinjuriesfrommanual tasks.Thecostofcompensationfromtheseinjurieswas$5.3million (41%oftotalcosts)andmorethan17,700workingdayshavebeen lost(47%oftotallosttime).Theuninsurablecosttotheindustryto dateformusculoskeletalinjuriesoccurringin2008/09hasamounted tomorethan$21.5million. Inallitsactivitiessuchasplanning,transport,storage,erection anddismantlingofformworkandscaffolding,theindustryneedsto take into account the risk of injury from manual tasks and develop

strategiestoeliminate,orifthisisnotpracticable,atleastminimise the risks from manual tasks. The Approved Code o Practice or Manual Handling (available

fromtheSafeWorkSAwebsitewww.safework.sa.gov.au)provides 28

contribute to or aggravate work-related musculoskeletal disorders. There are also many other sources of information for solutions to

APPenDIces Appendix1:Denitions

ei

Inrelationtotheperformanceofatask,meansapersonwho– (a)isaregisteredprofessionalengineereligiblefor corporatemembershipofEngineersAustralia,and (b)iscompetenttoperformthetask. fa d

ba

Primaryhorizontalsupportmembersforaformworkdeckthatare placedinU-headsontopofformworkframes.Bearersareusually constructedfromtimberbutaresometimesconstructedfrommetal, such as in the case of some modular formwork systems.

Adeckdesignedtopreventworkersfalling2mormoreand/or provided as a working platform. f

Anobjectusedinthecastingofconcreteoors,wallsorcolumns that has part of its surface in contact with the concrete during the

c

Partofaslipform,jumpformorcrane-liftedformwhereworkersare

initial concrete curing process.

required to carry out work. The cell will generally be enclosed by all

fw di

sides and a bottom surface.

Apersoncompetenttodesignbasicornon-basicformworksystems , butmayonlycertifybasicformwork.Tocertifynon-basicformwork, theFormworkDesignermustbeanengineerexperiencedin

Certicateofcompetency

Adocumentthathasbeenissuedbyalicensingauthoritypriorto the introduction of the National Standard or Licensing Persons Perorming High Risk Work authorising a person to perform one or more classes of high risk work. ca  hih i w

formwork design. fw a

Astructuralassembly,anumberofwhichareusedtosupporta formworkdeck.Bearersareplaceddirectlyontheseframes.

AclassofworklistedintheSchedule–LicenceClasses and Denitions,oftheNational Standard or Licensing Persons Perorming High Risk Work.

Anyhorizontalmemberofaformworkorscaffoldfra methatis

cptt p

aworkingplatform(includestheterm‘transom’inreferenceto scaffolding).

In relation to performing an inspection or other task for a control

measure–isapersonwhohasacquired,throughtraining, qualicationsorexperience,theknowledgeandskillstodothework inasafeway,including: (i) soundknowledgeofrelevantAustralianStandards,codes of practice and other legislation; and

(ii)soundknowledgeof,andcompetencein,therisk managementprocessforerecting,alteringand dismantlingformwork,including– •hazardidenticationandriskassessment •measurestocontrolexposuretorisks •safeworkpracticesandprocedures,and •howtoplanandprepareformwork.

Hizta  provided as stiffening for the frame and may also be used to support

Itdiat pat

Aplatformatleasttwoplankswide,locatedlessthan2mabove a continuous deck. jit

Asecondaryhorizontalsupportmemberfortheformworkdecktha t isplacedontopof,andatrightanglesto,thebearers.Joistsare usually constructed from timber but are sometimes constructed from

metal,suchasinthecaseofsomemodularformworksystems. mta d

Aformdeck,madeofsteelsheetsthatarenormallynotreco vered. mda w

ctait hti

Aformworksystemthatisspecicallydes ignedandconsists

Aprotectivestructurexedtotheperimeterofthebuilding,structure

of components that are not intended to be used with other systems.

or working platform to contain objects and prevent them from falling.

Pit d

ed ptti

Edgeprotectionthatisprovidedontheperimeteroftheprotection

Abarriererectedalongtheedgeof– • abuildingorotherstructure • anopeninginasurfaceofabuildingorotherstructure,or • araisedplatform

formwork to be erected.

(Note:Perimeteredgeprotectionwillpreventafallfromtheoutside perimeter of the formwork but will not prevent internal falls through

theformwork).

to prevent a person falling.

29

Propping

Slender structural members placed in a vertical position between two horizontal suraces and used to support the upper surace. The proprietary term ‘acrow’ is oten used to describe a prop. The height o propping is usually adjustable. Vertical member

A vertical structural member which may or may not orm part o a rame, also known as a standard, prop or vertical tube.

Appendix 2: Training Under the South Australian Occupational Health, Safety and Welfare Act 1986, Part 3, Section 19 – Duties of employers …“an employer must provide such information, instruction, training and supervision as are reasonably necessary to ensure that each employee is safe from injury and risks to health”... Anyone involved in erecting and dismantling ormwork must be trained to perorm their work in a manner that is sae and without risks to health or saety, and must have evidence o their training. The employer must monitor their systems o work and, when necessary, provide reresher training to ensure that sae practices are being ollowed. The requirement or an employer to ensure that training is provided has been identifed in several sections o this guide. Some o this training relates to specifc competencies required under the legislation and must be conducted by a registered training organisation. For example: • scaffolder • rigger • dogman • craneoperation.

Other duty o care training may be provided and delivered by manuacturers or suppliers o equipment and materials or, where resources are available, developed and delivered in-house by competent trainers. This includes training or: • formworkconstructionsystems • modularworksystems • workingatheightharnesssystems.

Sae work method statements, developed by experienced workers and their supervisors, can orm an excellent basis or introductory training or inexperienced or new workers in the ollowing areas: • erectingofalltypesofformwork • dismantlingofalltypesofformwork • layingofmetaldeck • slipformsandjumpforms.

Each site manager must assess training requirements and ensure that everyone on-site can competently and saely undertake their work without adversely aecting the health and saety o others.

30

Appendix3:Sampleengineer’scerticationletters Refertosection2.2.2Formworkdesigncerticationrequirements.

(A)Engineer’sCerticationLetter– n aiati t di …………………………………. …………………………………. …………………………………. …………………………………. Dear ……………………

Project…………………………………… I certify that the formwork system detailed below has been designed in accordance with AS 3610 – Formwork or Concrete and

AS 3600 – Concrete Structures ,andtheprojectdocumentationincludingthestructuralengineeringdrawingsandspecications. The system is detailed on the drawings and documentation listed below.

Dawi 

Dawi a

Specications

Yoursfaithfully

SIGNATURE Engineer’sname

DocumentControlSystemNo.

31

(B)Engineer’sCerticationLetter–vaiati t di

…………………………………… …………………………………… …………………………………… ……………………………………

Dear ……………………

Project……………………………. I certify that the variations to the formwork system detailed below have been checked and satisfy the AS 3610 – Formwork or Concrete,

AS 3600 – Concrete Structure andtheprojectdocumentationincludingthestructuralengineeringdrawingsandspecication.

vaiati 

Yoursfaithfully

SIGNATURE Engineer’sname

DocumentControlSystemNo.

32

Dtai  aiati  w t

Pt dawi 

Appdix 4: ctti hit (Note: ‘#’ denotes an item that, i not passed by the competent person, must be reerred to the engineer. All other items not passed by the competent person must be corrected on-site and certifed by the competent person when he/she is satisfed.) lad

• Stackedloadlimitsareidentiedforallstages? • Stackedmaterialsareonspreaders? # Willanyconstructionproceduresexceedthestackedloadlimit? matia

# Correctformmaterialsarebeingused? • Formfaceconditionissuitableforthenishrequired? fw a

# Aretheformworkframesinthecorrectlocationand correctnumber? • Aretheytodimensionandwithintolerance? • Aretheyaccuratetoline,levelandplumb? bai/Pp

# Aretheredifferentpropsorbracestotheonesindicatedon theformworkdrawings? • Arethepropsplumb? • Arepropsstraight? • Arebaseplatesonadequatefoundations? • Areallloadscentrallyplaced? • Ifno,arealleccentricloadscertied? • Aresupportedelementswedgedandnailed? • Isthebracingcorrectandrmlyconnected?

Wattiht

• Areallformpaneljointsproperlysealedandcramped? • Aretheconstructionjointssealed? ct/cti

• Whatisthemaximumrateofplacementpermitted? • Aretheformsmaintainingline,level,plumb,shape,etc duringconcreting? stippi

• Whataretheminimumstrippingtimes? • Hastheprojectdesignerpermittedmodicationofthese? • Dotheproceduresenablestrippingwithoutdamagetoform or concrete? • Aretheprovisionsconsistentwiththere-usetimesrequired? • Doesthecranehavethenecessaryslingsetctomovethe formsquickly? • Whatcuringmethodsaretobeusedoncetheformwork is removed? • Isthestorageareafortheformworkorganised? sat

• Arethereadequateguardrails,handrails,walkways,signs,etc in position?

fixi

• # # • • #

Isthenailing/screwingadequate? Arethetiesthecorrecttype? Aretheyonthecorrectgrid? Areallties,clampsandboltstight? Arewedgestightandnailed? Areanyconnectionsbetweentraditionalformworkandmodular formworkcorrect?

ba-pppi

# Istheback-proppingsystemcorrect? # Arethenumberofoorsrequiredforback-proppingcorrect? # Hastheproppingbeencorrectlyreleasedandtightened,as specied,priortotheconcretebeingpouredabove? cai

• • • • •

Aretheformfacescleaned? Isanydamagecorrectlyrepaired? Isthecorrectreleaseagentinuse? Isitbeingcorrectlyapplied? Hasalldebrisbeenremovedfromwithintheform?

33

Appendix5:Samplestructural(pre-pour)certicate Refertosection2.2.5On-sitecoordinationandverication

Engineer’s/Competentperson’sname:……………………………………………….…….Telephone:…………………………….. Address:………………………………………………………………………………………………………………………… Fax:………………………………………………. Mobile: ……………………………………………

Date: ……………………………..

Project:………………………………………………………………………………………………………………………… …………………………………………………………………………………………………………………………………

Level:……………………………….

Area:……………………….

Thisistocertifythatthe………………………..Formworkfortheaboveprojecthasbeeninspectedandisconsideredtobeadequateto supportthedesignloadsinaccordancewiththerelevantAustralianStandardsincluding AS 3610 Formwork o Concrete. The following items were included in the inspection:

It

cditi (i)

W qid (i)

Base plates

PASS

FAIL

No

Yes

Frame spacing

PASS

FAIL

No

Yes

Frame bracing

PASS

FAIL

No

Yes

Frame extensions

PASS

FAIL

No

Yes

Bearer size and spacing

PASS

FAIL

No

Yes

Joist size and spacing

PASS

FAIL

No

Yes

Prop spacing

PASS

FAIL

No

Yes

Prop bracing

PASS

FAIL

No

Yes

Eccentric loading

PASS

FAIL

No

Yes

Prop inclination

PASS

FAIL

No

Yes

Timber condition

PASS

FAIL

No

Yes

Steel condition

PASS

FAIL

No

Yes

Nails in plates as required

PASS

FAIL

No

Yes

Column framing

PASS

FAIL

No

Yes

Column bracing

PASS

FAIL

No

Yes

Plywood xing

PASS

FAIL

No

Yes

Dtai  dia w qid

…………………………………….

…………………………………

Engineer’s/Competent person’s name

Signature

34

Appdix 6: Dt  d i w t s pat

(a) Notlevelledinoreccentricallyplaced (b) Inadequateload-carryingcapacityoftheground, or uneven bedding

(c) Deteriorationwithtime,e.g.duetoweatherconditions (d) Deteriorationofload-carryingcapacityofthe ground, e.g. washouts

(e) Crushingduetoinadequateloaddistributionfromvertical andhorizontalmembers. Hizta ppt

(a) Foldingwedges,tapercuttotoocoarse,notproperlycleatedor cut from wet material

(b) Inadequatelateralandtorsionbracing,e.g.betweentelescopic centres,centrescarryingheavyloadsoverlongspans,steel propssupportingheavyloadsat,ornear,maximumextension

ga

(a) Excessivetolerancesinconstruction (b) Failuretochecktightnessofbolts,wedges,etc (c) Failuretocontrolverticalrateofplacementof concrete (d) Failuretocontrolplacementofconcrete,causinguneven loading of forms

(e) Inadequateallowanceforupliftofconcreteunderinclinedforms (f) Inadequateallowancefortheeffectsofvibrationonjoints (g) Inadequateallowanceforstressesinducedbypre-stres sing, temperature and moisture movements

(h) Noallowanceforwindloading (i) Noallowancefortheeffectofvibrationonties,struts,braces, and wedges

(j) Unrealisticassessmentofstressesduetoover-simplicationof design assumptions

(k) Unequalloaddistributionbetweentwoormorememberscarrying a common load

(l) Penetrationstometaldeckstobesupported.

and between towers supporting independent spans

(c) HorizontalmembersnotcentrallyplacedinU-heads (d) Inadequatesupportstocantilevers,e.g.strutssupportingdeep beam sides on the outer face of the structure

(e) Inadequatebearingareastoverticalsupportsandundersideof principal members causing crushing

(f) Inadequatesupporttopreventoverturningofdeepprincipal membersbecausestirrupsorU-headsomitted (g) Boltedtimberconnectionsnotstaggeredcreatingtendency to split out. vtia ppt

(a) Inadequatebracingduringerection (b) Supportsnotplumb (c) Inadequatelateraltiesand/orverticalandplanbracing (d) Notiesbetweenstandardsatpointofloading(mostimportant wheretelescopiccentresarebeingsupported) (e) Incorrectprovisionofpropsfromoortooor (f) Lackofrigidityofscrewconnectionsduetoover-extensionor lack of bracing

(g) Incorrectpinsusedinadjustablesteelprops,e.g.nails,mildsteel bolts and reinforcing bars used

(h) ScaffoldU-headsorsupportsomittedorotherwis eeccentrically loaded without allowance having been made for this condition

(i) Bearingplatesdistorted(topandbottomplatesofsteelprops) (j) Inadequateordiscontinuousbracingtoscaffold (k) Basejacksover-extended.

35

Formwork Guide

Recommend Documents