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Flashcards in SOC construction (T/O) Deck (63)
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1
Q
  1. What are the categories of lumber?
A

Hardwood
Softwood
Bamboo
Palm

2
Q
  1. What are the three main classes of lumber?
A
Yard lumber (finished, common boards, common dimension)
Structural lumber (Density, Strength, Thickness)
Factory/ Shop grad
3
Q
  1. What is the two classifications of lumber?
A

1) Select lumber
Good appearance and finishing, it is identified by Grade A thru D

2) Common Lumber
It is suitable for general construction and utility purpose it is identified by Grades No.1 Common thru 5 Common.

4
Q
  1. Describe Select lumber grades
A

1) Grade A:
Suitable for natural finishes and practically clear
2) Grade B:
Suitable for natural finishes, and generally clear
3) Grade C:
Suitable for high quality paints and finishes
4) Grade D:
Suitable for high finishing

5
Q
  1. Describe Select Common Lumber
A

1) No.1:
Suitable for use without waste, it is sound and tight knotted.
2) No.2:
Used for framing, sheathing and other structural forms
3) No.3:
Used for footings, guardrails, and rough flooring
4) No.4:
Used for sheathing, subfloors, and roof boards
5) No.5:
Used for boxes, crates, and dunnage where quality requirements are low

6
Q
  1. What is nominal and actual measurement of 2 by 4?
A

Nominal 2” by 4”

Actual 1-1/2” and 3-1/2”

7
Q
  1. Describe plywood
A

Fabricated from layers of ply’s of wood bonded together, it comes in various thickness up to 1”
Comes in odd number of plys. Both face grains run in the same direction

8
Q
  1. Describe BF (Board feet of lumber) formula
A

BF = T x W x L x Number of pieces / 12 or 144
 T = thickness of the board
 W= width of the board
 L = length of the board
• If L is in feet use 12, if L is in inches use 144

9
Q
  1. Describe Board Measure (BM)
A

Used to estimate the building materials for project by adding the waste factor

10
Q
  1. What are the waste factor?
A

1” or smaller, add 20% (1.2) sheathing or plywood

2” or larger, add 10% (1.1) stud or framing

11
Q
  1. Describe BM formula
A

BF X 1.2 OR 1.1 = BM (Round up to whole number)

12
Q
  1. Describe formula plywood?
A

2(L + W) x H divide by 32 = amount of plywood (Round up to whole number)

13
Q
  1. What is sheathing used for?
A

Floor, Wall, and Roof

14
Q
  1. Why strong joint is important?
A

A structure is only as strong as its weakest joint

15
Q
  1. What are the two types of strong connection?
A

Joints and Splices

16
Q
  1. What is a joint?
A

A connection of two or more pieces that meet at an angle

17
Q
  1. What is a splice?
A

A connection of two or more members that continue in a straight line

18
Q
  1. What are the two types of joint?
A

Butt and Lap

19
Q
  1. What are the three types of But Joints?
A

Straight Butt joint
Oblique Butt joint
Miter Butt joint

20
Q
  1. What are the types of Lap joints?
A

Crosslap joint
Middlelap joint
plan lap joint
half-lap joint

21
Q

What is a splice designed to resist stresses of?

A

Tension, Compression, and Bending

22
Q
  1. What are the four primary types of nails?
A

Common wire, Finishing, Scaffolding, and Roofing

23
Q

What is the range of nails size?

A

2d to 60d

24
Q
  1. What size of nails to you use for sheathing?
A

8d

25
Q

What size of nails to you use for framing?

A

16d

26
Q
  1. What are the three rules of nailing?
A

1) Use proper nail size it must penetrate at least 2/3 into second board
2) Drive nails at a slight angle toward each other (x)
3) Use a good nailing pattern

27
Q
  1. Describe Nail Formula
A

It is used to determine the amount of nails needed in pounds
1) Framing use 10d to 60d
Pound (p) = (d/6) x (BM/100)

2) Sheathing use 2d to 8d (or material up to 1”)
Pound (p) = (d/4) x (BM/100)
• Round up to whole number

28
Q
  1. What are the other Fasteners?
A

Spikes & Drift Pins
Screws
Bolts
Timber Connectors

29
Q
  1. What is the design life?
A

How long can the building stay with no repairs

30
Q
  1. What are the three categories of design life?
A

Permanent 25 and more
Semi-permanent 5 to 25
Temporary less than 5

31
Q
  1. What are the three types of framing?
A

Platform (used extensively in military construction), Balloon, and Braced

32
Q
  1. What is substructure?
A

Anything above foundation lines, it consider as sub structure

33
Q
  1. What are the four components of the substructure?
A

Footer, Girder, Joist, and Subfloor

34
Q
  1. What is spacing of Footer?
A

Footer should never be placed more than 10 feet apart.

35
Q
  1. What are the components of of footer?
A

Footing, Spreader, Scab, and Post

36
Q
  1. What are the footer made of?
A

Pressure treated lumber

37
Q
  1. What is the spacing on center between joist?
A

16 inches

38
Q
  1. What is placement of Joist?
A

Run perpendicular to load bearing walls and girders

39
Q
  1. where bridging should be constructed?
A

For every 8’ of span one line of bridging should be constructed

40
Q
  1. What is splice plates?
A

It covers joint, constructed of the same lumber used in the joists. 24” in length and cover both sides of the joint.

41
Q
  1. What is the special instruction of laying sub floor?
A

Off-set joints of the plywood by starting with a half sheet, the first course of plywood runs perpendicular to the joist

42
Q
  1. What is the special instruction on wood materials?
A

All wooden material should be treated if less than 18 inches from the ground

43
Q
  1. Describe Estimate floor sheathing
A

( L x W) / 32 round up X2 = TOTAL amount of sheets (treated & untreated)

44
Q
  1. What are the two types of stairs?
A

Stringer and Box frame

45
Q
  1. What is range of Riser?
A

7 to 9” high

46
Q
  1. What is range of tread?
A

8 to 11” deep

47
Q
  1. Describe Stairs formula
A

Ground level to floor / 7.5 (optimal riser) then round up number = tread
Ground level to floor / tread = actual riser length

48
Q
  1. What is special instruction of Stairs?
A

Maintain distance minimum 3 1/2” back of the stars to rise, boards cups down

49
Q
  1. What are the dimension of the mud sill?
A

2 by 4

50
Q
  1. Superstructure consist of what?
A

Wall panels and roof

51
Q
  1. What are the component of Wall panel?
A
Sole plate
Jack/king studs
Top plate (DBL)
Girt (fire block)
Splices
Door and windows (headers, cripples and sil)
Sheathing
Truss or Rafter
52
Q
  1. What is spacing of wall studs?
A

Either 16” O.C or 24” O.C

53
Q
  1. Describe wall panel layout
A

All panels are 8’ by 8’ for movement
Stud are paled 16” O.C
Top plate is DBL at construction site

54
Q
  1. What are the roof styles?
A

Gable (most common)
Lean to
Hip
Gable and Valley

55
Q
  1. What is pitch?
A

A 5-12 pitch means for every 12 inches horizontal distance there is a 5 inch vertical rise

56
Q
  1. Describe Rafter Formula
A
1)	RL
HS2 X R2 = C2
Run = width /2 = HS
Rise = pitch x Run = R
•	Convert rise in. to ft by dividing 12 
2)	TRL with Overhang
Find out RL and add OH
3)	TRL with Projection
HS = Pr+(width/2) = HS
Rise= HS x Pitch and divied by 12 =R
Solve problem by using HS^ + R^ = C^
•	Hundredth decimal point .00
57
Q
  1. Describe Truss&Rafter estimate
A

of roof members = Building length / O.C spacing Round up +1

  • Rafter spacing 16” (1.33) OC
  • Truss spacing 24” (2’) OC
58
Q
  1. Center vertical webbing of truss called what?
A

Hanger

59
Q
  1. What is purloins?
A

The first layer of roofing. 2 x 4 material, spaced 24” O.C from outer edge of the overhang to the peak

60
Q
  1. What is spacing of trusses?
A

24” O.C

61
Q
  1. What are the roofing materials?
A

Metal
Tile
Shingle (Wood and Asphalt)

62
Q
  1. Estimate roof sheathing?
A

TRL X TBL ( Length + 2(projection)

Then, divide by 32 and multiply by 2

63
Q
  1. What is fascia board?
A

Fascia boards are the outer most part of the BLDG placed before all permanent purloins