Final Fantasy XII Strategy GuideDescrição completa
Final Fantasy XII Strategy Guide
Final Fantasy XII Strategy GuideFull description
Final Fantasy XII Strategy Guide
Descripción completa
prjmFull description
Sistema de Reutilizacion de aguas grisesDescripción completa
QUESTIONNAIRE This survey is entitled A Pure Descriptive Research about the Earthquake Resistant Framework Used in the Social Hall of Montessori De Sagrada Familia as Identified by Engineers and Architects During the Year 2017. Be assured that whatever information you will be giving will be treated confidentially. NAME (optional):____________________________
PROFESSION:____________
DIRECTIONS: Please read carefully and fill out the necessary information by checking the column which best expresses your own opinion regarding the question. Part I: Methods Used in Strengthening an Earthquake Resistant Building and the Possible Damages that may Occur when an Earthquake Strikes Instruction: 1.1 Please indicate the effectiveness of the following methods used in strengthening an earthquake resistant building in order to withstand the effect of an earthquake.
A. BASE ISOLATORS
1. Base Isolator: Elastomeric Rubber Bearings 2. Base Isolator: Roller and Ball Bearings 3. Base Isolator: Spring Isolators
1.2 Please indicate your opinion about the extent of the possible damages in each structural component that may occur when a magnitude 7 earthquake strikes.
POSSIBLE DAMAGES TO BEAMS
Strongly Agree
Agree
Neither Agree Nor Disagree
Disagree
Strongly Disagree
Strongly Agree
Agree
Neither Agree Nor Disagree
Disagree
Strongly Disagree
1. Failure of shear beams 2. Spalling of concrete cover 3. Buckling of reinforcing bar 4. Yielding of flange and web 5. Buckling of local components 6. Brittle fracture may occur
POSSIBLE DAMAGES TO COLUMNS 1. Cracking and crushing of fragments 2. Spalling of concrete cover 3. Buckling of reinforcing bar 4. Flexural and shear may fail 5. Short column effect may occur 6. Yielding of flange 7. Buckling of local components 8. Fracture of brittle materials 9. Splice failure may happen 10. Member buckling
POSSIBLE DAMAGES TO CONNECTIONS
Strongly Agree
Agree
Neither Agree Nor Disagree
Disagree
Strongly Disagree
Strongly Agree
Agree
Neither Agree Nor Disagree
Disagree
Strongly Disagree
1. Cracking and crushing of fragments 2. Buckling of reinforcing bar and pull-out 3. Failure of shear beams 4. Yielding of fragments 5. Buckling of local components 6. Fracture of brittle materials 7. Cracking of weld parts 8. Excessive panel deformations 9. Bolt fracture of parts
POSSIBLE DAMAGES TO STRUCTURAL WALLS AND INFILLS 1. X-shaped cracks may occur 2. Buckling of reinforcing bar 3. Overturning, rocking and sliding of fragments
POSSIBLE DAMAGES TO FOUNDATIONS
Strongly Agree
Strongly Agree
Agree
Neither Agree Nor Disagree
Disagree
Strongly Disagree
Agree
Neither Agree Nor Disagree
Disagree
Strongly Disagree
1. Buckling of reinforcing bar and pull-out 2. Rocking, sliding and uplifting of fragments 3. Bolt anchorage rupture 4. Weld cracks and rupture of parts 5. Excessive base plate deformations
POSSIBLE DAMAGES TO FRAMES 1. Excessive residual deformations 2. Distress in diaphragms and connectors 3. Pounding, rocking and uplifting of fragments 4. Fall of parapets
Part II: Standard Materials Used in an Earthquake Resistant Building Instruction: 2.1 Please check the appropriate boxes indicating the materials used for an earthquake resistant building in terms of the following:
Metal Aluminum Copper Gold Iron Nickel Platinum Silver Tin Zinc Wood Hardwood Deodar Walnut Tree Wood Teak Softwood Chir pine Fir Hemlock E. Doors, windows and other openings Fiberglass Reinforced Concrete Aluminum Wood Hardwood Deodar Walnut Tree Wood Teak Softwood Chir pine Fir Hemlock Vinyl F. Vertical transportations Concrete High-strength concrete Stamped concrete High-performance concrete Self-consolidating concrete
Part III: Bases to Consider if a Building is Earthquake Resistant Instruction: 3.1 Please rank the following factors according to your own standards in determining if a building is earthquake resistant (“1”being the highest and “9” being the lowest) ___Location or area of the building. ___Soil type ___Techniques and methods used ___Stable Foundation ___Professional in charge of the planning
___Ductility ___Shape of the building ___Building materials ___Structure of the building