3s Coordinate Eng. Systems

Question 1

S1 - List the pros (8) and cons(6) of wood structural systems.

Answer 1

\+ irregular forms
\+ easy to erect on-site
\+ plentiful & inexpensive
\+ Light weight
\+ Good in seismic zone
\+ Renewable Source
\+ compression & tension loads
\+ construction possible in bad weather
- thick floor assemblies
- combustible
- small spans/height
-susceptible to insect, water damage
- Requires several trades for finishing
-Not best for accoustics

Question 2

S3 - List the pros & cons of precast concrete structural systems. (6 pros 3 cons)

Answer 2

\+ integral fire protection
\+ allows irregular forms
\+ thin floors
\+ fast on-site erection
\+ flexible
\+ Factory made
- Heavy dead loads
- Poor insulation performance
- Requires crane for installation

Question 3

S4 - List the pros (4) & cons (5) of site-cast concrete structural systems.

Answer 3

\+ integral fire protection
\+ irregular forms
\+ thin floors
\+ high compressive strength
- rqrs good weather for erection
- heavy dead load
- Not good in tension
- Poor insulation qualities
- formwork/labour intensive

Question 4

S5 - List the pros(6) & cons (6) of steel structural systems.

Answer 4

\+ construction can occur in bad weather
\+ light dead load
\+ fast erection
\+ small column section
\+ adaptable
\+ Long spans possible
- rqrs fire protection
- thick floors
- rqrs regular grid
- rqrs shear bracing
- Requires specialty trades
- Poor insulation performance

Question 5

S6 - What 3 structural systems are best for inherent fire-resistance, particularly useful when structure exposed?

Answer 5

• ALL CONCRETE
• HEAVY TIMBER
• MILL CONSTRUCTION
X NOT STRUC. STEEL (weakens rapidly in fire)

Question 6

S8 - What structural system is best for a thin floor system?

Answer 6

• pre-stressed concrete
• Post-tensioned concrete
• hollow core precast concrete

Question 7

S9 - What structural system is worse for building in bad weather?

Answer 7

• Masonry
• site-cast concrete

Best=wood, steel, precast concrete

Question 8

S10 - What structural systems are best for a highly irregular form?

Answer 8

Simple floor/roof framing on-site
• SITE-CAST CONCRETE
• LIGHT GAUGE STEEL FRAME
• WOOD FRAME
• MASONRY

Question 9

S11 - What structural systems are best for allowing changes to the building over time?

Answer 9

Short-span one way systems
• LIGHT-GAUGE STEEL
• wood
• CONCRETE
• ANY ALL WOOD
X NOT POST-TENSIONED

Question 10

S12 - What structural systems are best for irregular grid? (2)

Answer 10

• SITE-CAST CONCRETE

* METAL SPACE FRAME

Question 11

S13 - What structural systems are best for min. area occupied by columns/bearing walls? (7)

Answer 11

Long span systems
• HEAVY WOOD
• STEEL FRAME
• STEEL TRUSS
• CONCRETE WAFFLE
• PRECAST CONCRETE
• GLUE LAM
• OPEN WEB STEEL JOIST

Question 12

S14 - What structural systems are best for min. construction time for 1-2 storeys? (3)

Answer 12

Lightweight / Easy to form
Prefab / Easy to assemble:
• ANY STEEL
• HEAVY TIMBER
• PLATFORM FRAME

Question 13

S15 - What structural systems are best for min. construction time for 4-20 storeys?

Answer 13

• PRECAST (prefab)
• STEEL FRAME (prefab)
• SITE-CAST (no lead-time)

Question 14

S16 - What structural systems are best for min. construction time for >30 storeys?

Answer 14

Strong & lightweight
Prefab / Easy to assemble:
• STEEL FRAME
• PRECAST / SITE-CAST COMBO

Question 15

S18 - What structural systems are best for min. on-site erection time?

Answer 15

Pre-processed, pre-fab, or modular:
• SINGLE STOREY RIGID STEEL FRAME
• conventional STEEL FRAME w HINGE CONNECTIONS
• Concrete precast 
• pre-fab wood or heavy timber

Question 16

S19 - What structural systems are best for min. no. of trades on-site?

Answer 16

• MASONRY

* PRECAST LOADBEARING

Question 17

S20 - What structural systems are best for min. structural distress from unstable foundation?

Answer 17

Frame wOUT rigid joints
• STEEL (BOLTED)
• HEAVY TIMBER
• PRECAST

Question 18

What structural systems are best for providing space within struc. for ducts, pipes, mech?

Answer 18

• TRUSS / OPEN WEB
• LIGHT GAUGE STEEL FRAME (combo w load bearing systems)
• PLATFORM FRAME (combo w load bearing systems)

Question 19

Give an example of:

• Distributed Load
• Line Loads
• Punctual loads

Answer 19

• Distributed Load: Roof, Above grave floor slab
• Line Loads: Wall on floor
• Punctual loads: Column

Question 20

What type of loads are these:

• The weight of a person
• The weight of a column
• A earthquake
• Rain/Snow loads
• Horizontal force a soil mass exerts on a vertical retaining wall.
• imposed on a structure by subsidence of a portion of the supporting soil in resulting differential settlement of its foundation.
• Hydraulic force groundwater force on a foundation system

Answer 20

• The weight of a person: OCCUPANT LOAD, LIVE LOAD, STATIC LOAD
• The weight of a column, DEAD LOAD,
• A earthquake: DYNAMIC LOAD, ENVIRONMENTAL LOADS
• Rain/Snow loads: LIVE LOAD, STATIC LOADS
• Horizontal force a soil mass exerts on a vertical retaining wall.: GROUND PRESSURE, DEAD LOAD, ENVIRONMENTAL LOADS, STATIC LOAD
• imposed on a structure by subsidence of a portion of the supporting soil in resulting differential settlement of its foundation.: SETTLEMENT LOAD, ENVIRONMENTAL LOADS
• Hydraulic force groundwater force on a foundation system: WATER PRESSURE, LIVE LOADS

Question 21

True or false? Precipitation are static loads.

Answer 21

True, they are live, static loads

Question 22

Which of the following loads are NOT permanent (dead) loads?*
1. Hydrostatic
2. Uniform
3. Live
4. Concentrated
5. Distributed
A) 1, 3
B) 1, 5
C) 2, 4
D) 3, 5
E) 1, 2, 3
F) 1, 3, 5

Answer 22

A) 1, 3 - Hydrostatic & Live

Question 23

What is “flutter”?

Answer 23

Flutter: Rapid oscillation of a membrane structure caused by the aerodynamic effects of wind

Question 24

What are damping mechanism?

Answer 24

viscoelastic devices typically install at structure joints to absorb energy from an earthquake by progressively diminishing vibratory and oscillatory motions and prevent destructive resonances from occurring.

Question 25

What are the 3 types of wind induces loads a structure must resists?

Answer 25

• uplifts
• sliding
• overturning

Must resist to them in all directive (positive and negative pressure)

Question 26

What is differential settlement?

Answer 26

Uneven consolidation of the soil cause relative movement of different parts of a structure.

Question 27

What serie of open-web steel joist offers longer spans, serie K or series LH/DLH?

Answer 27

DLH up to 44m
LH up to 18m but tends
K up to 18m but tend towards smaller spans than LH

Question 28

In a steel floor, what is bridging?

Answer 28

Horizontal or diagonal members keeping the horizontal members to overturn. Prevent lateral movement of joists.

Question 29

Quelle est l’une des conséquences de l’absence de drain dans une fondation d’une maison?*

Answer 29

Accumulation of water decrease the bearing capacity of the soils and increase the risk of infiltration between the foundation wall and slab

Question 30

What is a Vierendeel Truss?

Answer 30

Vierendeel truss are framed beams structures having vertical web members rigidly connected to parallel top and bottom chords. They aren’t real trusses because their member are subject to nonaxiale forces.

Question 31

What the name of this truss. What’s in compression? what is in tension? (blue,red)

Answer 31

Howe
Tension: Blue
Compression: Red

Question 32

What the name of this truss. What’s in compression? what is in tension? (blue,red)

Answer 32

Pratt Flat truss
Tension: Red
Compression: Blue

Question 33

Name 3 ways to get lateral stability

Answer 33

1. Bracing - Less effective, small to med building
2. Rigid frame - knee bracing, cross bracing, K bracing
3. Shear wall - Wood, concrete or masonry

Question 34

Define Settlement

Answer 34

Gradual subsiding of a structure as the soils under its foundation consolidate under loading

Question 35

Factors to consider in selecting and designing the

type of foundation system for a building include: (6)

Answer 35

• Pattern and magnitude of building loads
• Subsurface and ground water conditions
• Topography of the site
• Impact on adjacent properties
• Building code requirements
• Construction method and risk

Question 36

What’s underpinning?

Answer 36

Underpinning refers to the process of rebuilding or strengthening
the foundation of an existing building, or extending it when a
new excavation in adjoining property is deeper than the existing
foundation.

Question 37

WHat does a key in foundation wall-spread connection?

Answer 37

Increase resistance to lateral slippage.

Question 38

What’s the difference between damproofing and waterproofing? What material are used for each?

Answer 38

Damproofing: Hydrostatic pressure from groundwater will not occur; Bituminous or acrylic modified cement coating

Waterproofing: Hydrostatic pressure from groundwater will occur; Rubberized or polymer-modified asphalt, butyl rubber, bentonite clay

Question 39

Name 3 types of joints and where to use them

Answer 39

1. Isolation joint (expansion joint) where adjoining element of concrete meet to allow for movement
2. Construction joint: to stop and restart construction. Also serve as expansion and control joint. Dowel or Keyed to prevent differential settlement
3. Control joint, create a line of weakness to control where the jioints are, sawn joint or metal premold

Question 40

What is most critical in a floor system: bending or deflection. Why?

Answer 40

Deflection is more important for human comfort, effects on finish flooring and ceilings

Question 41

What’s that? What

Answer 41

Column capital . Can be used with or without a drop panel to increase resistance against punching shear

Question 42

What is prestressed concrete? What for? What types (2) + description.

Answer 42

Pretension or posttension of the steel of reinforced concrete resulting in compressive stress to counteract the tensile stress of the applied load.

Carry greater load; lengthened span

Pretension
Steel is stretch prior to pouring
Posttension
Steel is unstressed prior to pouring then replaced. Loads equalize upward curved

Question 43

What is shoring?

Answer 43

Shoring is the temporary structure around concrete fomwork.

Question 44

Name 3 types of connections for steel structure

Answer 44

Bolted
Welded
Riveted

Question 45

Name these profile, top to bottom

Answer 45

S shape - Classic I-Beam
W shape - wide flange
C shape - channel
Tubing (HSS-hollow steel section)

Question 46

Define plate girders, box girders, stiffeners, castellated beams

Answer 46

Plate girders: build up from plates or shapes, welded or riveted together

Box girders: plate girder but with hollow cross section

Stiffeners: angles fastened to each side of a web plate to stiffen against bulking

Castellated beams: Fabricated by cutting the web in a lengthwise zigzag then welding the halves at its peak. To increase depth without increasing the weight.

Question 47

Why are metal decking corrugated? What are the 3 types of metal decking+description

Answer 47

Metal decking are corrugated to increase the stiffness and spanning capabilities

1.Form decking - Permanent formwork for reinforced concrete slab

2.Composite - Serve as tensile reinforcement for the concrete slab with ribbed embossed pattern;
Composite action achieved by welding shear studs through the decking

3.Cellular - Welded corrugated decking to a flat steel sheet, creating cavities for wiring

Question 48

What are the name of these light-gauge steel Joists. Left to right

Answer 48

Nestable Joist
C joist
Joist closure

Question 49

If the overall constrcution is acceptable, is it preferrable to have

1. more joist but less deep, or
2. less joists but deeper?

Answer 49

2. less joists but deeper.

Deeper joist=more stiffness=less deflection better for floor and ceiling finishes and human comfort

Question 50

What’s A & B?

Answer 50

A: 51mm (2”) to joist edge

B: max diameter=1/3 of joists

Question 51

What’s A?

Answer 51

A: 1/6 of joist; no opening in the middle third of span