CONSTRUCTION ESTIMATE CALCULATOR (BY ENGR. RONALD JOHN R. CAJILLA) (JUST INPUT THE DATA INSIDE THE YELLOW CELL)
ITEM - I CONCRETING WORKS A. DETERMINING THE VOLUME OF A CONCRETE FORMULA: FOOTING
VOLUME = L * W * T CLASS A CONCRETE MIX
T
L
Enter Length L (M Enter W#$th W (M Enter Th#%&ne'' T (M TOTAL TOT AL VOLUME OF CONCRETE N,er /0 F//1ng Un#t' TOTAL TOT AL VOLUME OF CONCRETE 3 OF CEMENT 4AGS VOL. OF OF SA SAND CU.M. VOL OL.. OF OF 567 56788 GRA GRAVE VELL
CU.M CU .M..
!."! !."! !.) !.!+ 2!.!! !.+! +.!! !.)!
CU.M. Units CU.M. 4AGS CU.M.
!.+!
CU.M.
M M M
WALL FOOTING
T L ! LEN"TH FORMULA:
VOLUME = L * W * T CLASS A CONCRETE MIX
Enter Length LT (M Enter W#$th W (M Enter Th#%&ne'' T (M TOTAL TOT AL VOLUME OF CONCRETE 3 OF CEMENT 4AGS VOL. OF OF SA SAND CU.M.
LT ! TOTAL LEN"TH#PERIMETER FLOOR SLA4
VOL OL.. OF OF 567 56788 GRA GRAVE VELL FORMULA:
CU.M CU .M..
5.!! !.5! !.2) 2.77 25.!! !.9!
CU.M. 4AGS CU.M.
2.)!
CU.M.
M M M
VOLUME = L * W * T CLASS A CONCRETE MIX
L (M W (M T T (M Enter Concrete Mix Design (CLASS) AA, A,or B 7 .5 TOTAL TOT AL VOLUME OF CONCRETE 3 OF CEMENT 4AGS Enter Length Enter W#$th Enter Th#%&ne''
BASED ON MAX FAJARDO FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
".!! +.!! !.2! 0 .5 ).7! 72.!!
M M M
25" 1 CU.M. 4AGS
VOL. OF OF SA SAND
CU.M.
.:!
CU.M.
VOL OL.. OF OF 567 56788 GRA GRAVE VELL
CU.M CU .M..
).7!
CU.M.
(BY ENGR. RONALD JOHN R. CAJILLA) FLOOR SLA4 - 4; AREA VOLUME = F/r Are* T
FORMULA:
CLASS A CONCRETE MIX
T
Enter F/r Are A (S>.M Enter Th#%&ne'' T (M Enter Concrete Mix Design (CLASS) AA, A,or B TOTAL TOT AL VOLUME OF CONCRETE 3 OF CEMENT 4AGS VOL. OF OF SA SAND CU.M.
A'() 7 .5
0 .5
CONCRETE COLUMNS RECTANGULAR
VOL OL.. OF OF 567 56788 GRA GRAVE VELL
1
7!.!! !.2! 4 7.!! 52).!! 2.!!
25" CU.M. 4AGS CU.M.
7.!!
CU.M.
W#$th 2 W#$th
!.) !.)
CU.M CU .M..
S$.M M
COLUMN DIMENSIONS%
1
M M
& VOLUME = H * W2 * W
FORMULA:
H
CLASS A CONCRETE MIX
Enter He#ght L (M VOLUME OF CONCRETE FOR EACH COLUME N,er /0 C/<,n' Un#t' TOTAL TOT AL VOLUME OF CONCRETE 3 OF CEMENT 4AGS VOL. OF OF SA SAND CU.M. VOL OL.. OF OF 567 56788 GRA GRAVE VELL CU CU.M .M..
CONCRETE COLUMNS CIRCULAR
2. !.!9 2!.!! !.:" :.!! !.7! !.9!
CU.M. Units CU.M. 4AGS CU.M. CU.M.
D#eter
!.5!
M
AreC#r%
!.!:
S>.M.
M
COLUMN DIMENSIONS%
D1
FORMULA:
H
VOLUME = H * AreC#r% CLASS A CONCRETE MIX
Enter He#ght L (M OLUME OF CONCRETE EAC! COLUMN: N,er /0 C/<,n' Un#t' TOTAL TOT AL VOLUME OF CONCRETE 3 OF CEMENT 4AGS
BASED ON MAX FAJARDO FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
5.!! !.2 ".!! 2.: 2.!!
M
CU.M. Units CU.M. 4AGS
VOL. OF SAND VOL. OF 5678 GRAVEL
CU.M. CU.M.
!.:! 2.5!
CU.M. CU.M.
(BY ENGR. RONALD JOHN R. CAJILLA)
CONCRETE 4EAMS VOLUME = LT * W * D
FORMULA:
CLASS A CONCRETE MIX
LT BEAM DIMENSIONS%
D
EnterT/t< Length LT (M Enter W#$th W (M Enter De?th D (M TOTAL VOLUME OF CONCRETE 3 OF CEMENT 4AGS VOL. OF SAND CU.M. VOL. OF 5678 GRAVEL CU.M.
M ).!! M !.! M !.5! !.5! CU.M. 4AGS 5.!! !.! CU.M. !.5! CU.M.
CONCRETE STAIRS
Enter R#'er He#ght Enter Tre$ R,n Enter St#r W#$th Enter 3 /0 Ste?' Enter Str#nger Th#%&ne''
TR RH
0.&5
TS
RH (M TR (M W (M N TS (M
0.+5
CU.M.
M M M St(*s M
0.71
TOTAL VOLUME OF CONCRETE 3 OF CEMENT 4AGS VOL. OF SAND CU.M. VOL. OF 5678 GRAVEL
!.! !.5! 2.! :.!! !.2)
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
!.:2 :.!! !.7!
CU.M. 4AGS CU.M.
!.9!
CU.M.
BY: ENGR. RONALD JOHN R. CAJILLA ITEM - II MASONR; WORKS A. DETERMINING THE NUM4ER OF CONCRETE HOLLOW 4LOCKS USED 4. DETERMINING THE NUM4ER OF CEMENT @ VOLUME OF SAND FOR MORTAR @ LASTERING M Enter W<< He#ght H (M ".!! M Enter W<< Length L (M !.!! S$.M Enter Are /0 W#n$/B AW (S>.M. .99 S$.M. Enter Are /0 D//r AD (S>.M 2.7: , 4re&ge A<
S>.M. CS
MORTAR USING "# C!B 3 OF CEMENT 4AGS "2.!! 4AGS VOL. OF SCREENED SAND CU.M. ).2! CU.M. MORTAR USING $# C!B 3 OF CEMENT 4AGS 229.!! 4AGS
VOL. OF SCREENED SAND
CU.M.
+.9! CU.M.
%LASTER : &$'' t Mix: &:* One face ohe wa on!
3 OF CEMENT VOL. OF FINE SAND
4AGS 4AGS 57.!! CU.M. 2.+! CU.M. %LASTER : &$'' t Mix: &:* Two face" of #he wa
3 OF CEMENT VOL. OF FINE SAND RIRAING WORKS
4AGS CU.M.
":.!! 4AGS 5.9! CU.M.
L
1
Enter He#ght H (M Enter W#$th 2 W2 (M Enter W#$th W (M Enter Length L (M U'#ng
H
.!! !.5! !."! !.!!
M M M M
Stn(s ')nin /' 15 t &5 s 2it3 )t4()st 50, / stn(s 2(i3in '( t3)n &0 s 6 C4)ss A Mit8'(
TOTAL SIDE AREA TOTAL VOLUME VOL. OF 4OULDERS CU.M. 3 OF CEMENT 4AGS VOL. OF SAND CU.M.
&
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
!.+! 29.!! 29.!! 7:.!! ."!
S>.M. CU.M. CU.M. 4AGS CU.M.
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
BY: ENGR. RONALD JOHN R. CAJILLA ITEM - III STEEL REINFORCEMENT TH OF REINFORCING BARS FOR CHB IN ME LENGTH LENGTH VERT. OF OF SPACEING SPACING HORIZON VERTICAL LAYER (CM) TAL REIN./SQ. REIN./
+0
.+5
Ler'
5.5!!
90
.25
5 Ler'
.2)!
:0
2."
7 Ler'
<('?;)4 s*);in
s*);in 4)@('
2.:!
DETERMINING THE NUM4ER OF 4ARS USED Enter W<< He#ght H (M Enter W<< Length L (M Enter +-- o.enings S>.M Enter Constnt Fctor VERTICAL Enter Constnt Fctor HORIONTAL TOTAL WALL AREA 3 OF VERTICAL 4ARS USED 3 OF HORIONTAL 4ARS USED 32" TIE WIRE USED
M 5.)! M 2!.!! S$.M. 2."9 */&0 $1c' */&2 0 -3ers 55.5 S>.M. 2.!! CS "M 2.!! CS "M 2."! Kg'
!."! !."! 7.!! 7.!! 2!.!! !.!)!
FOOTING MATTING
L
Enter Foo4ng Lengt L (M Enter Foo4ng 5i6t W (M Enter 7 o8 Brs -ong L 3 Enter N9'er o8 Brs -ong 5 3 Enter N9'er o8 Foo4ng 3 Enter C-er Co;er C% (M
M M P;s P;s Units M
No#e$ S#an%a&% Cea& Co'e& fo& foon *+,+-. #o +,+/-.
= / B)'s *(' Si>(
Net. Length
C4()' C<('
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
!.)! !.)! 9.!! 2.5!
M M LHS Kg'
BY: ENGR. RONALD JOHN R. CAJILLA WALL FOOTING REINFORCEMENT Enter 5-- Foo4ng 5i6t W (M Enter 5-- Foo4ng Tot- Lengt LT (M Enter S.cing o8 Tie Brs 8or 5-- 8oo4ng (M
!.5! 5.!! !.7!
M
To#a 0 of T1e"$
92.!! 2.!! 2:.!! 2.5!
CS LHS LHS Kg'
To#a 0 of Ho&12on#a 3a&" U"e%$
T
Oer<< T/t< 3 /0 4r' ,'e$ 32" TIE WIRE USED
M M
Ti( B)'s S*);in
LT ! TOTAL LEN"TH#PERIMETER
RECTANGULAR COLUMN REINFORCEMENT
D1
H
C4()' C<(' /' ;48ns ! 0.+0
D& H (M 3
2.7: 2!.!!
Ø
Enter Co-9'n Di'ension D*
2.!! !.) !.)
(M (M
Enter N9'er o8 er4c- Brs
(M
7.!!
PCS
Enter Co-9'n !eigt Enter N9'er o8 Co-9'ns Enter Rein8orce'ent Br Di'eter re<9ire6 Enter Co-9'n Di'ension D&
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
M Units M M
En> H# L 3 Enter S4rr9. r 6i'eter re<9ire6
Ø
Enter S4rr9.s S.cing
(M
2!.!! !.!
U'e En$ H//& T/t<
!.!! .! !.!!
M M LHS
!.+! 2+.!! +.!!
M CS LHS
7.7!
Kg'
M
M
BY: ENGR. RONALD JOHN R. CAJILLA 0.5
0.&
32" TIE WIRE USED CIRCULAR COLUMN REINFORCEMENT H (M 3
5.)! 9.!!
Enter Rein8orce'ent Br Di'eter re<9ire6
Ø
(M
2.!! !.5!
Enter Co-9'n Di'eter D&
Enter N9'er o8 er4c- Brs
(M
".!!
PCS
Enter S4rr9. r 6i'eter re<9ire6 Enter S4rr9.s S.cing
Ø
2!.!! !.!
U'e En$ H//& !.!! T/t<
M M LHS
Enter Co-9'n !eigt Enter N9'er o8 Co-9'ns
D1
1
(M
Units M
M
0.&
S?#r< S1rr,?' C8t L(nt3 / ();3 s?''8*s% !.:! N,er /0 S1rr,? L//?' ?er C/<,n 9.)! T/t< N,er /0 4r' re,#re$ 0/r '1rr,?' "M 5!.!! 32" TIE WIRE re,#re$ :.9!
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
M M LHS Kg'
M M LHS Kg'
BY: ENGR. RONALD JOHN R. CAJILLA 4EAM REINFORCEMENT (4EAM TO 4EAM = LESS THAN ".! METERS ONE 4A; Enter Be' to Be' Lengt
L() t ()
Enter Be' 5i6t Enter Be' De.t Enter Co-9'n 5i6t
).!! !.! !.5! !.5!
= / B)'s = / NnCn?n88 Cn?n88 Si( / B)'s s s B)'s
T/? 4r'
D
L (M W (M D (M CB(M
3
-
M M M M Units
2".!!
5e Brs 2.!! Nt(% *8t 0 (' i/ 2( )'s nt )**4i;)4(
To. Brs
We 4r'
4/J/ 4r'
Bo=o' Brs
2
-
2".!!
2!.!! !.!
5.!! -
CS CS
Enter S4rr9. Brs Di'eter re<9ire6: Enter S4rr9. S.cing:
M
L ! S*)n L#+
0.15L
C48n i>t3
TO 4ARS 7 o8 $' Lengt De8or'e6 Brs re<9ire6 s Con4n9o9s Brs 7 o8 $' Lengt De8or'e6 Brs re<9ire6 s Non>Con4n9o9s Brs WE4 4ARS
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
7 o8 $' Lengt De8or'e6 Brs re<9ire6 s 5e Brs
4OTTOM 4ARS 7 o8 $' Lengt De8or'e6 Brs re<9ire6 s Con4n9o9s Brs 7 o8 $' Lengt De8or'e6 Brs re<9ire6 s Non>Con4n9o9s Brs
BY: ENGR. RONALD JOHN R. CAJILLA N,er /0 2" r' ,'e$ ' #n r' N,er /0 2 r' ,'e$ ' Be r' N,er /0 2! r' ,'e$ ' '1rr,?' 32" TIE WIRE USED 4EAM REINFORCEMENT (TWO 4A;S CONTINUOUS 4EAM Enter Be' Lengt & L2 (M Enter Be' Lengt * L (M Enter Be' 5i6t W (M Enter Be' De.t D (M L& L1 Enter Co-9'n 5i6t Mx CB(M
-
CS
.!! -
CS CS
).!! ".!! !.9!
CS CS CS Kg'
).!! ).!! !.! !.5! !.5!
M
= / B)'s = / NnCn?n88 Cn?n88 Si( / B)'s s s B)'s
T/? 4r'
D
2
1
M M M M Units
2.!!
5e Brs 2!.!! Nt(% *8t 0 (' i/ 2( )'s nt )**4i;)4(
To. Brs
We 4r'
4/J/ 4r'
Bo=o' Brs
2
1
2.!!
2!.!! !.!
Enter S4rr9. Brs Di'eter re<9ire6: Enter S4rr9. S.cing:
L ! S*)n1 L#+
L ! S*)n& L#+
0.15 L 0.15 L
C48n
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
M
TO 4ARS 7 o8 $' Lengt De8or'e6 Brs re<9ire6 s Con4n9o9s Brs 7 o8 $' Lengt De8or'e6 Brs re<9ire6 s Non>Con4n9o9s Brs WE4 4ARS 7 o8 $' Lengt De8or'e6 Brs re<9ire6 s 5e Brs 4OTTOM 4ARS 7 o8 $' Lengt De8or'e6 Brs 9se6 s Con4n9o9s Brs 7 o8 $' Lengt De8or'e6 Brs re<9ire6 s Non>Con4n9o9s Brs
BY: ENGR. RONALD JOHN R. CAJILLA N,er /0 2 r' re,#re$ ' #n r' N,er /0 2! r' re,#re$ ' Be r' N,er /0 2! r' re,#re$ ' '1rr,?' 32" TIE WIRE USED
7.!! .!!
CS CS
-
CS
7.!! .!!
CS CS
2.!! .!! .!
CS CS CS Kg'
ONE WA; SLA4
>UANTIT; OF REINFORCING STEEL 4ARS IN A ONEWA; REINFORCED CONCRETE SLA4 4AR SACING IN CM. 10.000 1&.500 15.000 17.500 &0.000
NUM4ER OF STEEL 4ARS ER S>UARE METER
TIES (KGS
.79+
0.+7+
.09&
0.19
&.5:+
0.&&:
&.&&
0.19:
1.G:0
0.1&
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
&&.&00
1.7:9
0.110
&5.000
1.9&7
0.0:G
+.!! :.!! .!
CM
3 /0 Stee< 4r C/n'tnt 0%t/r % 3 /0 T#e' 32" C/n'tnt 0%t/r % 3 OF STEEL 4ARS re,#re$ CS "M 3 OF 32" TIE WIRE re,#re$ KGS
2.:9" !.22! 225.!! :.!!
CS KGS
T
L
Enter Length Enter W#$th Enter 4r S?%#ng
L (M W (M %
M M
BY: ENGR. RONALD JOHN R. CAJILLA
TWO WA; SLA4
>UANTIT; OF REINFORCING STEEL 4ARS IN A ONEWA; REINFORCED CONCRETE SLA4 4AR SACING IN CM. 10.000 1&.500 15.000 17.500
NUM4ER OF STEEL 4ARS ER S>UARE METER
TIES (KGS
+.9G
0.5G&
.90
0.+19
.&&1
0.50
&.9+7
0.&+7
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
&0.000
&.90
0.17+
&&.&00
&.19:
0.19:
&5.000
1.G77
0.1+&
+.!! :.!! ).!!
CM
3 /0 Stee< 4r C/n'tnt 0%t/r % 3 /0 T#e' 32" C/n'tnt 0%t/r % 3 OF STEEL 4ARS re,#re$ CS "M 3 OF 32" TIE WIRE re,#re$ KGS
2.+:: !.27 2).!! +.!!
CS KGS
+.!! :.!! 7!.!! 7!.!!
M M CM CM
3 OF STEEL 4ARS USED ARALLEL TO L CS "M 3 OF STEEL 4ARS USED ARALLEL TO W CS "M 3 OF 32" TIE WIRE re,#re$ KGS
52.!! 5!.!! ".!!
CS CS KGS
RH (M TR (M W (M N TS (M 0.0
!.! !.5! 2.!! 2!.!! !.2) 0.9
M
T
L
Enter Length Enter W#$th Enter 4r S?%#ng
L (M W (M %
M M
BY: ENGR. RONALD JOHN R. CAJILLA
REINFORCED GROUND SLA4 (4ARS SACING MORE THAN )CM Enter Length Enter W#$th Enter 4r S?%#ng
T
L
L (M W (M % %
CONCRETE STAIRS
TR RH
Enter R#'er He#ght Enter Tre$ R,n Enter St#r W#$th Enter 3 /0 Ste?' Enter Str#nger Th#%&ne'' Enter S?%#ng (M
Enter S?%#ng (M
Enter Ste?' Lter< 4r $#eter (
!.5! Enter Str#nger Lter< 4r $#eter (
2"
!.5! 2
TS Enter S?%#ng (M
Enter S?%#ng (M
!.5!
Enter Ste?' Lter< 4r $#eter (
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
M M St(*s M 0.99
!.5!
2
Enter Str#nger H/r#/nt< 4r $#eter (
2 N9'er o8 &* '' Lter- Brs re<9ire6 ? Ste.s CS "M N9'er o8 &* '' !ori@ont- Brs re<9ire6 ? Ste.s CS "M N9'er o8 &$ '' Lter- Brs re<9ire6 ? Stringer CS "M N9'er o8 &* '' !ori@ont- Brs re<9ire6 ? Stringer CS "M 3 OF 32" TIE WIRE USED KGS
NOTES
).!! ).!! 7.!! .!! 2.!!
CS CS CS CS KGS
DOWELS FOR LATERAL 4ARS ARE ALREAD; INCLUDED IN THE ESTIMATES FOR STAIRS LANDINGS ;OU MA; USE THE SLA4 REINFORCEMENT CALCULATOR
BY: ENGR. RONALD JOHN R. CAJILLA
CONCRETE CANAL
TOP OPENIN" IDTH S?(n(' Enter Cn< T/t< Length
T H " I E H L A T O T L A N A C
Enter Cn< T/t< He#ght Enter T/? O?en#ng W#$th Enter 4/J/ O?en#ng B#$th
BOTTOM OPENIN" IDTH
Enter Cn< F/r#ng 4/J/ W#$th Enter Cn< F/r#ng Th#%&ne''
Enter 3 /0 <er' /0 CH4 ,'e$ (2 S#$e
TCF
Enter S#e /0 CH4 re,#re$
C<%. U r
CONCRETING Cana 4oo&1n Cana To7 S8ene&
2!!.!! !.9! !.)! !.5! !.)! !.2)
Ler
5.!!
4)@('s
!.2! 2!
M
78= !.2! "8 = !.2)
CH4 4re&ge <
CANAL Enter 3 /0 H/r#/n< 4r'0/r W<<#ng ( '#$e' FLOORIN" Enter 3 /0 H/r#/n< 4r' 0/r //r#ng BOTTOM IDTH
(M (M (M (M (M (M
&.+5
CS CS (M Enter U r '?%#ng 7.5 Enter Concrete Mix Design (CLASS) A or B c9/'/ To#a 5o6.e /,-+ c9/'/ To#a 5o6.e 9,++ 3 /0 4g' %eent V/<,e /0 Sn$
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
7.!! 5.!! !."! 0.5 4 59.&5 G.00 "".!! +.25
M M M M M M
,
PCS PCS M 1
25" &:.1 1.00 4AGS CU.M.
V/<,e /0 567 Gre<
:.)!
CU.M.
MASONR; 3 /0 CH4 ,'e$ ))!.!! CS 1&0 AREA MORTAR USING "# C!B 3 OF CEMENT 4AGS "5.!! 4AGS VOL. OF SCREENED SAND CU.M. ).5! CU.M. MORTAR USING $# C!B 3 OF CEMENT 4AGS 2.!! 4AGS VOL. OF SCREENED SAND CU.M. 2!.! CU.M. %LASTER : &$'' t Mix: &:* One face ohe wa on!
3 OF CEMENT VOL. OF FINE SAND
4AGS CU.M.
4AGS 5).!! .!! CU.M.
BY: ENGR. RONALD JOHN R. CAJILLA REINFORCEMENTS 3 /0 H/r#/nt< 4r' U'e$ t CH4 W<< 3 /0 H/r#/nt< 4r' U'e$ t F/r#ng 3 U 4r' 3 4r' U'e$ 0/r U 4r'
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
:5.!! CS "M )).!! CS "M 2"9.!! CS "+.!! CS "M
BY: ENGR. RONALD JOHN R. CAJILLA CARENTR; WORKS Deter#n#ng the t/t< /r$ 0//t /0 <,er. Enter N,er /0 ?#e%e' Enter <,er D#en'#/n L
TOTAL 3 OF LUM4ER IN 4D.FT
3 W2(IN W(IN L(FT
2!!.!! .!! 7.!! 2.!!
4$..
9!!.!!
CS #n%he' #n%he' 0eet ( 4D.FT
& 1
Deter#n#ng the t/t< /r$ 0//t /0 r/,n$
(D - 7 L 2"
Enter N9'er o8 .ieces Enter -9'er Di'ension
3 D2(IN L(FT
TOTAL 3 OF LUM4ER IN 4D.FT
4$..
:!.!!
4D.FT
4$.. 1 in
:! & in 7
L
CS
2!9.!!
CS
2.!! 9.!! !.!!
CS #n%he' 0eet (
Deter#n#ng the t/t<
L
Enter tot- B6/ : Enter 6esire6 -9'er 6i'ension :
TOTAL 3 OF LUM4ER IN IECES6LENGTHS & 1
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
2!
BY: ENGR. RONALD JOHN R. CAJILLA NUM4ER OF 4OARD FOOT OF STUDS @ NAILING POIST ER S>UARE METER SACING IN CENTIMETER (CENTER TO CENTER L8(' si( 5! 5! 5! "! 7! 7! 7! "! "! "! in in;3(s +.10 .1+7 .1:G &.9:9 &.&9: 2 :.1G: 9.&G 9.7G 5.7 +.5G+ 1&.&:+ G.++0 G.59G :.090 5 ".9+9 19.+1+ 1&.5G& 1&.75: 10.7+9 G.1G5 7
H
L
Enter Length /0 W<<6Ce#<<#ng6F/r#ng Enter He#ght /0 W<<6Ce#<<#ng6F/r#ng Enter C/n'tnt F%t/r 3 OF 4D.FT OF STUDS @ NAILING POIST USED Enter tot- B6/ : Enter 6esire6 -9'er 6i'ension :
TOTAL 3 OF LUM4ER IN IECES6LENGTHS
L (M H (M C 4D.FT
+.!! 5.!! ".9+9 29".)
4$.. 1 in CS
29".) & in 5 7:.!!
USING 2678 ORDINAR; L;WOOD /r 7Q 9Q HARDIFLE 4OARD TOTAL 3 OF 7Q 9Q ORDINAR; L;WOOD USED (ONE SIDE SHTS 2! TOTAL 3 OF 7Q 9Q ORDINAR; L;WOOD USED (TWO SIDES SHTS 2+ 3 OF 28 CWN#<' U'e$ 0/r 4/r$' (ONE SIDE 3 OF 28 CWN#<' U'e$ 0/r 4/r$' (TWO SIDES 3 OF 268 CWN#<' U'e$ 0/r P/#n#ng the St,$' t/gether
KGS KGS KGS
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
!." 2.2 2.7
M M 4D.FT.
L
9 CS
Sheet' Sheet' KGS KGS KGS
BY: ENGR. RONALD JOHN R. CAJILLA ROOFING WORKS
E H( ; ? <( i > t 3 S i > ( 4 )* * i n .
S#$e L??#ng Ee%1e W#$th
26 !."!
En$ L??#ng
2 26 !.:!
1 n . t 3 ( L ( t S 3 ( / R -
)% - 5! %
& . t 3 n ( t L 3 ( ( S / R - -
n . * * i ) 4 E n >
H
L' S*)n P'(;?n B84)>)
Pit;3
2
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
BY: ENGR. RONALD JOHN R. CAJILLA DETERMINING THE DESIRA4LE NUM4ER OF SHEETS IF USING MORE THAN ONE SHEET R)(' L1 .&10GG M Enter S?n (L' 5.!! An4( 0.+&&7G M Enter He#ght (H 2.! H& 0.+0 Enter r/e%1/n W#$th (4,<$ M 2.!!
M M M
R)(' L& 1.079799 = / *84ins
:.00
Rn L(nt3 1
+.:
&
:,;+
:,9+
M T/t< Length /0 Rer 7.52 USING ONL; TWO SHEETS M T/t< R//ng Net Length 7.59 FT 9 Enter R//0 Sheet Length 2 FT 9 Enter R//0 Sheet Length M !.7 2.5: Oer<? O Roo8 Seet co'in4on
M M FT FT FT
USING THREE SHEETS 1 Rn L(nt3 +.: M T/t< R//ng Net Length 7.59 M FT :,;+ Enter R//0 Sheet Length 2 9 FT & FT :,9+ Enter R//0 Sheet Length 9 FT FT :,9+ Enter R//0 Sheet Length 5 9 FT M Oer<? 2.72 7." FT O Roo8 Seet co'in4on B9t not econo'ic-, cost 3o9 'ore 'one3 En6 L..ing '9st not e 'ore tn * DETERMINING THE NUM4ER OF ROOF SHEETS
S#$e L??#ng 26 Ee%1e W#$th !."! M Enter R//ng t/t< B#th 22.!! Tt)4 R/ i>t3 M Enter Ee%1e W#$th !.:! USING ONL; TWO SHEETS N9'er o8 te &st Roo8 seet 9se6 ? 8eet -ong t one si6e on-3 2" N9'er o8 te *n6 Roo8 seet 9se6 ? 8eet -ong t one si6e on-3 2" N9'er o8 U're-- Ni-sTescre+s 2
2 26 !.:! M M Sheet' Sheet' KGS
Note: M9st '9-4.-3 3 t+o i8 te oter si6e o8 te roo8 is si'i-r
USING THREE SHEETS N9'er o8 te &st Roo8 seet 9se6 ? 8eet -ong t one si6e on-3 2" N9'er o8 te *n6 Roo8 seet 9se6 ? 8eet -ong t one si6e on-3 2"
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
Sheet' Sheet'
N9'er o8 te 0r6 Roo8 seet 9se6 ? 8eet -ong t one si6e on-3 2" N9'er o8 U're-- Ni-sTescre+s Not reco''en6e6, cost 3o9 'ore 'one3 Note: M9st '9-4.-3 3 t+o i8 te oter si6e o8 te roo8 is si'i-r
BY: ENGR. RONALD JOHN R. CAJILLA
3 t > i / R
R/ i>t3
ROOF ACCESSORIES
Enter Tot- Co;ere6 Lengt Enter Eec4;e Lengt N9'er o8 Roo8 Accessories Use6
22.!! .! )
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
M M
CS
Sheet' KGS
BY: ENGR. RONALD JOHN R. CAJILLA TILING WORKS Enter 5-- or F-oor Are Enter Brege A--o+nce (2 > &1)
79.!! ).!!
S>.M.
T#
Wh#te Ceent A$he'#e
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
).!! 7.!! ".!!
4AGS KGS 4AGS
BY: ENGR. RONALD JOHN R. CAJILLA AINTING WORKS Enter 5-- Are
Unit Cn<('si 2 G<
Enter Co;erge Enter 7 o8 Cots N9'er o8 G--ons
S1.71? @1n%" of Pa1n# U"e" an% A&ea Co'e&ae
RIMERS KIND OF AINT
USES
THINING
DR;ING TIME COVERAGE6G<
1. Int('i' P'i(' 6 S()4('
F' int('i' 2> s8'/);(s
P)int T3inn('
& 3's )442 <('ni3t + '(;)?n
&5 t 0 s..
&. Et('i' > P'i('
F' (t('i' 2> s8'/);(s
P)int T3inn('
9 3's )442 <('ni3t + '(;)?n
0 t +0 s..
. R(> Oi>( P'i('
P'i(' /' /(''8s )n> nn-/(''8s )t('i)4s
P)int T3inn('
H8's
5 t +0 s..
+. R(> L()> P'i('
R8st *'(<(n?<( *'i(' /' /(''8s s8'/);(s
P)int T3inn('
H8's
0 t +0 s..
5. E*@ P'i('
F' St((4 A48in8 ")4<)ni(> i'n
E*@ R(>8;('
9 3's )442 <('ni3t + '(;)?n
0 t +0 s..
DR;ING TIME COVERAGE6G<
WATER 4ASE MASONR; AINT KIND OF AINT
USES
THINING
1. A;'@4i; L)t( P)int
Et('i' 6 Int('i' )sn'@ s8'/);(s
1#& 4ts# + 4ts 2)t('
0 in8t(s )442 9 3's + '(;)t
0 t +0 s..
&. A;'@4i; S(i-"4ss L)t(
Et('i' 6 Int('i' )sn'@ s8'/);(s
)t('
0 in8t(s )442 9 3's + '(;)t
0 t +0 s..
. A;'@4i; "4ss L)t(
Et('i' 6 Int('i' )sn'@ s8'/);(s
)t('
0 in8t(s )442 9 3's + '(;)t
0 t +0 s..
Uss( )s is
1 H8'. A442 + 3's (/'( '(;)?n
0 t +0 s..
F' /8'nit8'( ;)in(ts >'s +. L)t( Hi2in>2s "4ss En)(4 t4s t@s 2'83t i'n 6 *'i(> (t)4s
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
:.!! S>.M. C/erge 6G< ).!! .!! C/t' 5.!! G<'
5. Tin?n C4's
A;'@4i; ;4's
2)t('
USES
THINING
ROOF AINT KIND OF AINT
/' ".I. S3ts 1. A44 2()t3(' )s(sts );@4i; '/ 'i;s s3i(4> ;n;'(t( )n> st8;;
2)t('
".I. '/s )n> t3(' (t)4 &. D) st((4
DR;ING TIME COVERAGE6G< + 3's. )442 <('ni3t (/'( '(;)?n
+0 t 50 s..
9 3's. )442 <('ni3t (/'( '(;)?n
0 t +0 s..
ENAMEL AND GLOSS AINT KIND OF AINT
1. $8i; D'@in En)(4
&. Int('i' s(i-"4ss En)(4
. F4)t 2)44 En)(4
+. Et('i' "4ss *)int
5. Tin?n C4's
USES
THINING
DR;ING TIME COVERAGE6G<
/' (t('i' 6 5 3's. )442 : int('i' 2> P)int T3inn(' 3's. (/'( )n> (t)4 '(;)?n s8'/);(
Int('i' 2> )n> (t)4 P)int T3inn(' s8'/);(s
/' int('i' 2)44 6 ;(i4ins
P)int T3inn('
0 t +0 s..
9 3's. )442 <('ni3t (/'( '(;)?n
&5 t 0 s..
3's. )442 <('ni3t (/'( '(;)?n
+0 t 50 s..
/' (t(''i' 2> )n> 9 3's. )442 *'*('4@ P)int T3inn(' +: 3's. (/'( *'i(> (t)4 '(;)?n s8'/);(s
0 t 5 s..
Oi4 B)s( ?n?n ;4'
VARNISHING KIND OF AINT
1. )4s*)' ' S*)' )'nis3
&. Hi-s4i> s)n>in s()4('
USES
THINING
/' 's si>ins P)int T3inn(' /8'nit8'(s >(; / )ts
/' int('i' n(2 2> /8'nit8'(s )n> t8'(s ;)in(t >'s (t;.
L);8(' T3inn('
DR;ING TIME COVERAGE6G<
&+ 38's
+0 t 50 s..
10 in8t(s. A442 0 in8t(s (/'( '(;)t
+0 t 50 s..
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
. Hi-s4i> ;4()' 4ss L);8('
/' int('i' n(2 2> /8'nit8'(s >' *)n(44in )n> t'i.
L);8(' T3inn('
A442 0 in8t(s (/'( '(;)t
0 t +0 s..
+. Hi-s4i> S(i-4ss L);8('
/' int('i' n(2 2> /8'nit8'(s ;)in(ts >'s s3(4<(s (t;
L);8(' T3inn('
A442 0 in8t(s (/'( '(;)t
0 t +0 s..
5. Hi-s4i> >()> )t L);8('
/' int('i' 2> /8'nit8'( ;)in(ts >' )s t'i *)n(44in (t;.
L);8(' T3inn('
A442 0 in8t(s (/'( '(;)t
0 t +0 s..
9. )t(' 23it( 4ss L);8('
/' /8'nit8'(s ;)in(ts >'s *)n(4 )n> int('i' 2)44s
L);8(' T3inn('
A442 0 in8t(s (/'( '(;)t
0 t +0 s..
BASED ON MAX FAJARDO - SIMPLIFIED CONSTRUCTION ESTIMATE HANDBOOK
BY: ENGR. RONALD JOHN R. CAJILLA FORMS DETERMINING THE TOTAL MATERIALS USED FOR S>UARES @ RECTANGULAR COLUMN FORMS M
2. M !.) M Co-9'n Di'ension B !.) Units Enter N9'er o8 Co-9'ns 7.!! 1.&0 11.5& Note: One 8or' .er co-9'n > (Res9s-e 8or') 229."9 4$. Tot- 7 o8 B6/ o8 8r'e re<9ire6: & in L Enter 6esire6 -9'er 6i'ension : 1 in 5 9 Tot- N9'er o8 L9'er: 5!.!! CS 7.!! Sheet(' Tot- N9'er o8 %-3+oo6 re<9ire6: Tot- N9'er o8 7* &* C5Ni-s: 2.!! KGS Tot- N9'er o8 7& Finising Ni-s: !.7! Kg'
Enter Be' Lengt Be' Di'ension D
M
Be' Di'ension B Enter N9'er o8 Be's
M
Enter Co-9'n !eigt Co-9'n Di'ension A
t 3 i ( H n 0 8 4 C
M + . & R O +
DETERMINING THE TOTAL MATERIALS USED FOR 4EAMS @ GIRDER FORMS
Tt)4 B() L(nt3
D
B
0.G0
:.!! !.5! !.! 7.!! &5.&0
).!! & in 5 Tot- N9'er o8 L9'er: "5.!! +.!! Tot- N9'er o8 %-3+oo6 re<9ire6: Tot- N9'er o8 7* &* C5Ni-s: .2! !.+! Tot- N9'er o8 7& Finising Ni-s:
4$. L 9 CS Sheet(' KGS Kg'
Tot- 7 o8 B6/ o8 8r'e re<9ire6: 1 in
M Units
BY: ENGR. RONALD JOHN R. CAJILLA SCAFFOLDINGS ARTS OF SCAFFOLDINGS 1. ('?;)4 S8**'t &. B)s( / ('?;)4 S8**'t . H'int)4 M((' +. Di)n)4 B');(s 5. B4; )n> (>(s 9. N)i4s 6 B4ts
BY: ENGR. RONALD JOHN R. CAJILLA COLUMN M Enter Co-9'n !eigt 5.!! Units Enter 7 o8 Co-9'ns 2!.!! Tot- Co-9'n !eigt: 5!.!! M. Ht.
4EAM M Enter Be' Lengt 5.)! Units Enter 7 o8 Be's ".!! Tot- Be' Lengt: 2.!! M. Ht.
FLOORING Enter F-oor Are S$.M.
9!.!!
>UANTIT; OF LUM4ER FOR SCAFFOLDING OR STAGING C/<,n 4e L,er F/r#ng S#e Ver1%< H/r#/nt< 4r%e Ver1%< H/r#/nt< 8 8 272.!! "5!.!! 5)2.!! 97.!! +9.:! 799.!! 8 58 2!.!! +)!.2! )).!! 2".!! 27:.!! :9.!! 8 78 9!.)! 2":.)! :!!.)! 2"9.!! 2+".5) +"9.!! Enter tot- 7 o8 B6/ o8 L9'er re<9ire6: 7.7! 1 in & in
Tot- N9'er o8 L9'er: Tot- N9'er o8 7" C5Ni-s:
7 75.!! .!!
4$. L 9 CS KGS