Download PTU (I.K.Gujral Punjab Technical University (IKGPTU)) B-Tech (Bachelor of Technology) Mechanical Engineering 2020 December 4th Sem 59129 Strength Of Materials Ii Previous Question Paper
Roll No.
Total No. of Pages : 02
Total No. of Questions : 18
B.Tech. (ME) (2012 Onwards) (Sem.?4)
STRENGTH OF MATERIALS-II
Subject Code : BTME-401
M.Code : 59129
Time : 3 Hrs. Max. Marks : 60
INST RUCT IONS T O CANDIDAT ES :
1 .
SECT ION-A is COMPULSORY cons is ting of TEN questions carrying TWO marks
each.
2 .
SECT ION-B c ontains F IVE questions c arrying FIVE marks eac h and s tud ents
have to atte mpt any FOUR q ues tions.
3 .
SECT ION-C contains THREE questions carrying T EN marks e ach and s tudents
have to atte mpt any T WO questio ns.
SECITON-A
Write briefly on the following :
1.
What is proof resilience?
2.
Define Maxwell's theorem of reciprocal deflection.
3.
Draw failure envelope for maximum principal stress theory.
4.
What are closed coiled springs and what is the use of these springs?
5.
What do you mean by discs of uniform strength?
6.
Define Strain Energy and discuss about impact loading.
7.
Name the important theories of failure.
8.
Why leaf spring is called a spring of uniform strength?
9.
What do you mean by compound cylinder?
10. Discuss various types of stresses in crane or chain hooks.
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SECTION-B
11. State and explain Castigliano's theorem.
12. Explain why no single theory of failure can satisfy the failure condition for all materials?
13. A closely coiled helical spring of round steel wire of 10mm in diameter having 10 complete
turns with a mean diameter of 12cm is subjected to an axial load of 200N. Determine :
(i) The deflection of the spring (ii) Maximum shear stress in the wire (iii) Stiffness of the
spring. Take modulus of rigidity, G = 8 * 104 N/mm2.
14. A steam turbine rotor is running at 4200rpm. It is designed for uniform strength for a stress
of 85MN/mm2. If the thickness of the rotor at the centre is 25mm and density of the material
is 800kg/m3, then find the thickness of the rotor at a radius of 350mm.
15. Plot the shearing stresses distribution and derive an expression for locating the shear centre
for a rectangular section.
SECTION-C
16. Explain in detail the procedure of finding resultant stress in case of :
a) Circular ring
b) Chain link, when they are subjected to a tensile load along the longitudinal axis.
17. Find the thickness of a metal necessary for a cylindrical shell of internal diameter 160mm
to withstand an internal pressure of 8 N/mm2. The maximum hoop stress in the section is
not to exceed 35 N/mm2.
18. A cylindrical thin drum 80cm in diameter and 3 m long has a shell thickness of 1cm. If the
drum is subjected to an internal pressure of 2.5N/mm2, determine : (i) Change in diameter
(ii) Change in length and (iii) Change in volume. Assume modulus of elasticity
E = 2 ? 105 N/mm2 and Poisson's ratio = 0.25.
NOTE : Disclosure of Identity by writing Mobile No. or Making of passing request on any
page of Answer Sheet will lead to UMC against the Student.
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This post was last modified on 13 February 2021