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Civil Engineering (CE) Exam  >  Civil Engineering (CE) Tests  >  Test: Structural Fasteners - 3 - Civil Engineering (CE) MCQ

Test: Structural Fasteners - 3 - Civil Engineering (CE) MCQ


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20 Questions MCQ Test - Test: Structural Fasteners - 3

Test: Structural Fasteners - 3 for Civil Engineering (CE) 2024 is part of Civil Engineering (CE) preparation. The Test: Structural Fasteners - 3 questions and answers have been prepared according to the Civil Engineering (CE) exam syllabus.The Test: Structural Fasteners - 3 MCQs are made for Civil Engineering (CE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Structural Fasteners - 3 below.
Solutions of Test: Structural Fasteners - 3 questions in English are available as part of our course for Civil Engineering (CE) & Test: Structural Fasteners - 3 solutions in Hindi for Civil Engineering (CE) course. Download more important topics, notes, lectures and mock test series for Civil Engineering (CE) Exam by signing up for free. Attempt Test: Structural Fasteners - 3 | 20 questions in 60 minutes | Mock test for Civil Engineering (CE) preparation | Free important questions MCQ to study for Civil Engineering (CE) Exam | Download free PDF with solutions
Test: Structural Fasteners - 3 - Question 1
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A bolt designated as Hex bolt M 16 x 70 NL will have

Test: Structural Fasteners - 3 - Question 2
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A structural member carrying a pull of 700 kN is connected to a gusset plate using rivets of 20 mm diameter. If the pull required for shearing the rivets, to crush the rivets and to tear the plate per pitch length are 60 kN, 35 kN and 70 kN respectively, then the number of rivets required is

Detailed Solution for Test: Structural Fasteners - 3 - Question 2

The number of rivers required = force/Rivit value.

Rivit value = min value of shearing, bearing and tearing.

So,

700/35= 20.

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Test: Structural Fasteners - 3 - Question 3
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When load line coincides with the C.G. of rivet group, then the rivets are subjected to

Detailed Solution for Test: Structural Fasteners - 3 - Question 3

When a load, W acts on a rivet group then the rivets are subjected to two forces,
1. Force due to axial load, Fa = W/n
n = total number of rivets
2. Force due to moment M on any rivet Fm ∞ r
r = distance of the rivet from the C.G. of the rivet group
when load line coincides with the C.G. of the rivet group i.e. non-eccentric connection then the rivets are subjected to shear only.

Test: Structural Fasteners - 3 - Question 4
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For reversal of stresses the most suitable bolt is 
Detailed Solution for Test: Structural Fasteners - 3 - Question 4

Friction grip bolt is also called. High strength friction grip bolt or HSFG. The fatigue strength of these bolts is more because of no stress concentrations in the holes which makes it suitable to withstand reversal of stresses.

Test: Structural Fasteners - 3 - Question 5
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Which of the following is in violation of assumptions made in riveted joint analysis
Test: Structural Fasteners - 3 - Question 6
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If the same number of rivets has been used in the joints then which of the following pattern will yield highest efficiency
Detailed Solution for Test: Structural Fasteners - 3 - Question 6

The width of the main plate required is less in case diamond riveting. The critical section is diamond riveting passes through one or two rivet holes. The width of the plate required to accommodate diamond pattern is less than that for chain pattern by d(n - 1).
n = Number of rivets in chain riveting at critical section
d = Gross diameter of rivets

Test: Structural Fasteners - 3 - Question 7
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Minimum pitch of rivets in a riveted joint is
Detailed Solution for Test: Structural Fasteners - 3 - Question 7

Minimum pitch = 2.5 times the nomial dia of rivet.

Test: Structural Fasteners - 3 - Question 8
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The effective length of a fillet weld of length L and size s is given by
Detailed Solution for Test: Structural Fasteners - 3 - Question 8

The effective length of a fillet weld is equal to its overall length minus twice the weld size. The effective length of a fillet weld designed to transmit loading should not be. less than four times weld size.

Test: Structural Fasteners - 3 - Question 9
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The overlap of batten plates with the main members in welded connections should be more than (where t = thickness of batten plate)
Detailed Solution for Test: Structural Fasteners - 3 - Question 9

Batten plate is a short plate used to connect two parallel parts of a built-up structural-steel member of a bridge or building.

Test: Structural Fasteners - 3 - Question 10
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For a standard 45° fillet weld the ratio of size of fillet to throat thickness is
Detailed Solution for Test: Structural Fasteners - 3 - Question 10

For a 45° fillet weld throat thickness t = √2 x size of the weld.

Test: Structural Fasteners - 3 - Question 11
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The common assumption that, ‘all rivets share equally a non-eccentric load’ is valid at a load
Detailed Solution for Test: Structural Fasteners - 3 - Question 11

Actually the outer rivets are subjected to greater shear as compared to the inner rivets. The assumption that all rivets share equally a non-eccentric load is approximately valid when the connection is subjected to static loads approaching ultimate strength.

Test: Structural Fasteners - 3 - Question 12
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By providing sufficient edge distance, which of the following failures of riveted joint can be avoided?
Test: Structural Fasteners - 3 - Question 13
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As per IS : 800, the rivets subjected to combined tensile and shear stresses are proportioned such that
(Where fs and ft are respectively actual shear and tensile stresses in a rivet and ps and pt are respectively permissible shear and tensile stresses in rivet.)
Test: Structural Fasteners - 3 - Question 14
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In a diamond riveting, for a plate of width 'b' and rivet diameter 'd', the efficiency of the joint is given by
Detailed Solution for Test: Structural Fasteners - 3 - Question 14

Efficiency of riveted joint,


The section 1 - 1 is most critical. The strength of joint at section 1 - 1 is (b - d)tσat.
The strength of solid plate is b tσat

Test: Structural Fasteners - 3 - Question 15
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Which of the following methods of design would be suitable for metal structures subjected to stress reversals and impact?
1. Simple working stress design
2. Rigid plastic design
3. Semirigid design
4. Elastic rigid design

Select the correct answer using the codes given below:
Test: Structural Fasteners - 3 - Question 16
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For rivets in tension with countersunk heads, the tensile value shall be
Test: Structural Fasteners - 3 - Question 17
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When two plates are placed end to end and are joined by two cover plates the joint is known is
Test: Structural Fasteners - 3 - Question 18
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Match List - l (Use) with List - ll (Type of weld) and select the correct answer using the codes given below the lists:
List - l 
A. Structural members subject to direct tension or compression
B. Joining two surfaces approximately at right angIes to each other
C. A hole is made in one of the components and welding is done around the periphery of the hole.
D. Pressure is applied continuously
List - ll
1. Slot weld
2. Seam weld
3. Fillet weld
4. Plug weld
5. Butt weld
Test: Structural Fasteners - 3 - Question 19
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Consider the following statements:
Aluminum is being increasingly used for structural purposes because
1. Its modulus of elasticity is double that of steel
2. Its coefficient of thermal expansion is half that of steel
3. It requires less maintenance
4. The strength to unit weight ratio of aluminum is high

Which of these statements are correct?
Test: Structural Fasteners - 3 - Question 20
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The rivets in an eccentrically loaded riveted joint are shown in figure below.

Which rivets will be stressed to maximum? 
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