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Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE) PDF Download

Q1: A homogeneous, prismatic, linearly elastic steel bar fixed at both the ends has a slenderness ratio (I/r) of 105, where I is the bar length and r is the radius of gyration. The coefficient of thermal expansion of steel is 12 × 10−6/C. Consider the effective length of the steel bar as 0.51 and neglect the self-weight of the bar. The differential increase in temperature (rounded off to the nearest integer) at which the bar buckles is [2024, Set-I]
(a) 250°C 
(b) 400°C 
(c) 85°C
(d) 298°C
Ans: 
(d)
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)

Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)

Q2: Consider the fillet-welded lap joint shown in the figure (Not to scale). The length of the weld shown in the effective length. The welded surface meet at right angle. The weld size is 8 mm, and the permissible stress in the weld is 120MPa. What is the safe load P (in kN, rounded off to one decimal place) that can be transmitted by this welded joint ?  [2023, Set-I]
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)(a) 185.2
(b) 111.3
(c) 214.5
(d) 134.3
Ans: 
(d)
Given data, 
Weld size = 8 mm 
Permissible stress =120MPa 
Effective throat thickness, te = 0.7 × Weld size = 0.7 × 8 = 5.6 m
Total effective length of weld, ℓe = 2 × 75 + 50 = 200m 
⇒ Safe load 'P' in kN rounded upto one decimal palce 
= 5.6 × 200 × 120 × 10−3
= 134.4 k N 

Q3: Consider two linearly elastic rods HI and IJ, each of length b, as shown in the figure. The rods are co-linear, and confined between two fixed supports at H and J. Both the rods are initially stress free. The coefficient of linear thermal expansion is α for both the rods. The temperature of the rod IJ is raised by ΔT, whereas the temperature of rod HI remains unchanged. An external horizontal force P is now applied at node I. It is given that α = 10−6ºC−1 ,ΔT = 50º C-1, b = 2m, AE = 106 N. The axial rigidities of the rods HI and IJ are 2AE and AE, respectively. [2022, Set-II] 
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)

To make the axial force in rod HI equal to zero, the value of the external force P (in N) is _________. (round off to the nearest integer)
(a) 85
(b) 23
(c) 65
(d) 50
Ans:
(d)
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)

RA + RB = P  
∵ There is no axial force in rod HI 
∴ RA= 0 
Now check for rod IJ
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)Now as rod IJ is fixed from both end, so net deflection due to increase in temperature will be zero.
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)


Q4: For a linear elastic and isotropic material, the correct relationship among Young's modulus of elasticity (E), Poisson's ratio (v), and shear modulus (G) is  [2022, Set-II] 
(a)Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)
(b)Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)
(c)Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)
(d)Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)

Ans: (a)
E = 2G(1+μ) 
G = Shear modulas 
μ = Poission's ratio 
E = Young's modulus

Q5: Strain hardening of structural steel means  [2021, Set-II]
(a) experiencing higher stress than yield stress with increased deformation
(b) strengthening steel member externally for reducing strain experienced
(c) strain occurring before plastic flow of steel material
(d) decrease in the stress experienced with increasing strain

Ans: (a)
Strain hardening is experiencing higher stress than yield stress with increased deformation
In the figure AB = Strain hardening zone
OA = Linear elastic zone
Stress corresponding to point 'A' is yield stress.
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)
Q6: A square plate O-P-Q-R of a linear elastic material with sides 1.0 m is loaded in a state of plane stress. Under a given stress condition, the plate deforms to a new configuration O-P'-Q'-R' as shown in the figure (not to scale). Under the given deformation, the edges of the plate remain straight.  [2021, Set-I]
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)The horizontal displacement of the point (0.5 m, 0.5 m) in the plate O-P-Q-R (in mm,round off to one decimal place) is ________
(a) 1.2
(b) 6.3
(c) 5.2
(d) 2.5
Ans:
(d)
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)So horizontal displacement of the point (0.5 m, 0.5 m) 
= − 2.5 mm + 5 mm = 2.5 m

Q7: The state of stress represented by Mohr's circle shown in the figure is     [2020, Set-II]
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)(a) uniaxial tension
(b) biaxial tension of equal magnitude
(c) hydrostatic stress
(d) pure shear
Ans: 
(d)
In pure shear condition, Mohr's circle has its center at origin.

Q8: A rigid, uniform, weightless, horizontal bar is connected to three vertical members P, Q and R as shown in the figure. All three members have identical axial stiffness of 10 kN/mm. The lower ends of bars P and R rest on a rigid horizontal surface. When NO laod is applied, a gap of 2 mm exist between the lower end of the bar Q and the rigid horizontal surface. When a vertical load W is placed on the horizontal bar in the downward direction, the bar still remains horizontal and gets displayed by 5 mm in the vertically downward direction.  
[2020, Set-I]
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)The magnitude of the load W (in kN, round off to the nearst integer), is ______
(a) 110
(b) 150
(c) 130
(d) 160
Ans: 
(c)
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)P1 + P1 + P2 = W
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)

Q9: The total stress paths corresponding to different loading conditions, for a soil specimen under the isotropically consolidated stress state (O), are shown below:  [2020, Set-I]
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)The correct match between the stress paths and the listed loading conditions, is
(a) OP-I, OQ-II, OR-IV, OS-III
(b) OP-IV, OQ-III, OR-I, OS-II
(c) OP-III, OQ-II, OR-I, OS-IV
(d) OP-I, OQ-III, OR-II, OS-IV
Ans:
(b)
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)
Q10: An isolated concrete pavement slab of length L is resting on a frictionless base. The temperature of the top and bottom fibre of the slab are Tt and Tb , respectively. Given: the coefficient of thermal expansion = α and the elastic modulus = E. Assuming Tt > Tb and the unit weight of concrete as zero, the maximum thermal stress is calculated as [2019, Set-I]
(a) Lα(Tt - Tb)
(b) Eα(Tt - Tb)
(c)Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)
(d) Zero
Ans: 
(d)
Due to frictionless, thermal stress developed in concrete pavement slab is zero σth= 0

Q11: An element is subjected to biaxial normal tensile strains of 0.0030 and 0.0020. The normal strain in the plane of maximum shear strain is  [2019, Set-I]
(a) Zero 
(b) 0.001 
(c) 0.0025 
(d) 0.005
Ans: 
(c)
εx = 0.0030 
εy = 0.0020 
Normal strain in the plane of maximum shear strain
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)

Q12: A plate in equilibrium is subjected to uniform stresses along its edges with magnitude σxx = 30 MPa and σyy = 50 MPa as shown in the figure.
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)The Young’s modulus of the material is 2 x 1011 N/m2 and the Poisson’s ratio is 0.3. If σzz is negligibly small and assumed to be zero, then the strain εzz is _________.  
[2018 : 2 Marks, Set-I]
(a) -120 x 10-6
(b) -60 x 10-6 
(c) 0.0
(d) 120 x 10-6
Ans:

Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)So the answer is (d).

Q13: A 2 m long, axially loaded mild steel rod of 8 mm diameter exhibits the load-displacement (P-δ) behaviour as shown in the figure.
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)Assume the yield stress of steel as 250 MPa. The complementary strain energy (in N-mm) stored in the bar up to its linear elastic behaviour will be ________.  
[2017 : 2 Marks, Set-II]
Ans:
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)Elastic strain: Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)

Note: For linear elastic material both complementary energy and strain energy is the same.

OR

By considering the given graph in question, between Axial Load and Displacement, the solution will be as follows:
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)Complementary stain energy:
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)
It means there seems some error in the given data.

Q14: In a material under a state of plane strain, a 10 x 10 mm square centred at a point gets deformed as shown in the figure.
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)If the shear strain γxy at this point is expressed as 0.001 k (in rad), the value of k is _________.  
[2017 : 1 Mark, Set-II]
(a) 0.50

(b) 0.25
(c) -0.25
(d) -0.50 
Ans: (d)
According to the sign convention:
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)In question, since angle has been increased, therefore, shear strain should be negative.
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)

Q15: Consider the stepped bar made with a linear elastic material and subjected to an axial load of 1 kN, as shown in the figure.
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)Segments 1 and 2 have a cross-sectional area of 100 mm2 and 60 mm2. Young’s modulus of 2 x 105 MPa and 3 x 105 MPa, and length of 400 mm and 900 mm, respectively. The strain energy (in N-mm up to one decimal place) in the bar due to the axial load is _________.   
[2017 : 2 Marks, Set-I]
Ans:

Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)

Question for Past Year Questions: Properties of Metals, Stress & Strain
Try yourself:An elastic bar of length L, uniform cross-sectional area A, coefficient of thermal expansion α, and Young’s modulus Eis fixed at the two ends. The temperature of the bar is increased by T, resulting in an axial stress σ. Keeping all other parameters unchanged, if the length of the bar is doubled, the axial stress would be _______. [2017 : 1 Mark, Set-I]
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Question for Past Year Questions: Properties of Metals, Stress & Strain
Try yourself:An elastic isotropic body is in a hydrostatic state of stress as shown in the figure. For no change in the volume to occur, what should be its Poisson’s ratio?
[2016 : 2 Marks, Set-II]
Properties of Metals, Stress & Strain
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Q16: A tapered circular rod of diameter varying from 20 mm to 10 mm is connected to another uniform circular rod of diameter 10 mm as shown in the following figure. Both bars are made of the same material with the modulus of elasticity, E = 2 x 105 MPa. When subjected to a load P = 30πkN, the deflection at point A is ___ mm.  [2015 : 2 Marks, Set-I]
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)Ans:

Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)Total elongation,
AB is uniform
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)
BC is tapered
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)
= (9 + 6) mm = 15 mm

Q17: For the state of stresses (in MPa) shown in the figure below, the maximum shear stress (in MPa) is _______.
[2014 : 2 Marks, Set-II]
Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)Ans:

Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE)
= 5.0 MPa

Question for Past Year Questions: Properties of Metals, Stress & Strain
Try yourself:The values of axial stress (σ) in kN/m2, bending moment (M) in kNm, and shear force (V) in kN acting at point P for the arrangement shown in the figure are respectively.    
[2014 : 2 Marks, Set-II]
Properties of Metals, Stress & Strain
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Question for Past Year Questions: Properties of Metals, Stress & Strain
Try yourself:A box of weight 100 kN shown in the figure is to be lifted without swinging. If all forces are coplanar, the magnitude and direction (θ) of the force (F) with respect to x-axis should be    [2014 : 2 Marks, Set-I]
Properties of Metals, Stress & Strain
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Question for Past Year Questions: Properties of Metals, Stress & Strain
Try yourself:Creep strains are _________.   [2013 : 1 Mark]
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Question for Past Year Questions: Properties of Metals, Stress & Strain
Try yourself:The Poisson’s ratio is defined as:  [2012 : 1 Mark]
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Question for Past Year Questions: Properties of Metals, Stress & Strain
Try yourself:A rigid beam is hinged at one end and supported on linear elastic springs (both having a stiffness of 'K) at points T and ‘2’, and an inclined load acts at ‘2’, as shown.
Properties of Metals, Stress & Strain
If the load Pequals 100 kN, which of the following options represents forces P1 and P2 in the springs at points ‘1’ and ‘27'? 
[2011 : 2 Marks]
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Question for Past Year Questions: Properties of Metals, Stress & Strain
Try yourself: A rigid beam is hinged at one end and supported on linear elastic springs (both having a stiffness of 'K) at points T and ‘2’, and an inclined load acts at ‘2’, as shown.
Properties of Metals, Stress & Strain
Which of the following options represents the deflections δ1 and δ2 at points ‘Y and ‘2’?  [2011 : 2 Marks]
View Solution

Question for Past Year Questions: Properties of Metals, Stress & Strain
Try yourself:The number of independent elastic constants for a linear elastic isotropic and homogeneous material is _________.   [2010 : 1 Mark]
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The document Past Year Questions: Properties of Metals, Stress & Strain | Civil Engineering SSC JE (Technical) - Civil Engineering (CE) is a part of the Civil Engineering (CE) Course Civil Engineering SSC JE (Technical).
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FAQs on Past Year Questions: Properties of Metals, Stress & Strain - Civil Engineering SSC JE (Technical) - Civil Engineering (CE)

1. What are the main properties of metals that make them suitable for construction and manufacturing?
Ans.Metals possess several key properties that make them ideal for construction and manufacturing, including high tensile strength, ductility, malleability, conductivity (both thermal and electrical), and corrosion resistance. These properties allow metals to withstand various forces and environmental conditions, making them reliable materials for building structures and manufacturing products.
2. How do stress and strain relate to the properties of metals?
Ans.Stress is defined as the force applied per unit area of a material, while strain is the deformation experienced by the material due to that stress. The relationship between stress and strain is crucial in understanding a metal's mechanical properties, as it helps in determining how much load a metal can support before yielding or breaking. The stress-strain curve illustrates this relationship and is fundamental in materials science.
3. What is the difference between elastic and plastic deformation in metals?
Ans.Elastic deformation refers to the reversible change in shape of a metal when a stress is applied, meaning that once the stress is removed, the metal returns to its original shape. In contrast, plastic deformation occurs when the stress exceeds the yield strength of the metal, causing a permanent change in shape. Understanding these concepts is vital for predicting how metals will behave under different loading conditions.
4. What factors affect the strength of metals under stress?
Ans.The strength of metals under stress can be influenced by several factors including the type of metal, its alloying elements, temperature, and the presence of defects or impurities. Additionally, the method of processing (such as cold working or heat treatment) can also alter the microstructure of the metal, affecting its strength and overall mechanical properties.
5. How is the concept of yield strength important in engineering applications?
Ans.Yield strength is a critical parameter in engineering as it indicates the maximum stress that a material can withstand without undergoing permanent deformation. In design and structural applications, engineers must ensure that the materials used can support the expected loads without exceeding their yield strength, thereby preventing structural failure and ensuring safety.
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