Download GTU (Gujarat Technological University) BE/BTech (Bachelor of Engineering / Bachelor of Technology) 2019 Summer 4th Sem New 2142506 Fundamentals Of Machine Design Previous Question Paper
Seat No.: ________ Enrolment No.___________
GUJARAT TECHNOLOGICAL UNIVERSITY
BE - SEMESTER ?IV(NEW) ? EXAMINATION ? SUMMER 2019
Subject Code:2142506 Date:20/05/2019
Subject Name: Fundamentals of Machine Design
Time: 02:30 PM TO 05:00 PM Total Marks: 70
Instructions:
1. Attempt all questions.
2. Make suitable assumptions wherever necessary.
3. Figures to the right indicate full marks.
MARKS
Q.1 (a) Define machine design and give importants of the subject. 03
(b) Draw plan and elevation of double riveted double strap butt joint
with chain riveting.
04
(c) Explain stress concentration and methods of reducing it. 07
Q.2 (a) Give different forms of screw threads with neat sketch. 03
(b) Discuss common types of screw fastening with neat sketch. 04
(c) A 50mm diameter solid shaft is welded to a flat plate as shown in
figure 2(c), if size of weld is 15mm; find the maximum normal and
shear stress in weld.
Fig. 2(c)
07
OR
(c) A welded joint as shown in figure 2.1(c), is subjected to eccentric
load of 2kN, find the size of weld, if the maximum shear stress in
the weld is 25Mpa.
Fig. 2.1(c)
07
Q.3 (a) Compare shaft, axle and spline 03
(b) Explain different locking devices. 04
(c) Design a knuckle joint to transmit 150kN. The design stress may be
taken as 75MPa in tension, 60MPa in shear and 150MPa in
compression.
07
OR
Q.3 (a) List out different types of shaft coupling. 03
(b) Discuss various modes of failure of riveted joint. 04
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Seat No.: ________ Enrolment No.___________
GUJARAT TECHNOLOGICAL UNIVERSITY
BE - SEMESTER ?IV(NEW) ? EXAMINATION ? SUMMER 2019
Subject Code:2142506 Date:20/05/2019
Subject Name: Fundamentals of Machine Design
Time: 02:30 PM TO 05:00 PM Total Marks: 70
Instructions:
1. Attempt all questions.
2. Make suitable assumptions wherever necessary.
3. Figures to the right indicate full marks.
MARKS
Q.1 (a) Define machine design and give importants of the subject. 03
(b) Draw plan and elevation of double riveted double strap butt joint
with chain riveting.
04
(c) Explain stress concentration and methods of reducing it. 07
Q.2 (a) Give different forms of screw threads with neat sketch. 03
(b) Discuss common types of screw fastening with neat sketch. 04
(c) A 50mm diameter solid shaft is welded to a flat plate as shown in
figure 2(c), if size of weld is 15mm; find the maximum normal and
shear stress in weld.
Fig. 2(c)
07
OR
(c) A welded joint as shown in figure 2.1(c), is subjected to eccentric
load of 2kN, find the size of weld, if the maximum shear stress in
the weld is 25Mpa.
Fig. 2.1(c)
07
Q.3 (a) Compare shaft, axle and spline 03
(b) Explain different locking devices. 04
(c) Design a knuckle joint to transmit 150kN. The design stress may be
taken as 75MPa in tension, 60MPa in shear and 150MPa in
compression.
07
OR
Q.3 (a) List out different types of shaft coupling. 03
(b) Discuss various modes of failure of riveted joint. 04
2
(c) Design a cotter joint to support a load 30 kN in compression and
30kN in tension. The material used is carbon steel for which the
allowable stresses are ?t = 50MPa; ? = 35MPa; ?c = 90Mpa.
07
Q.4 (a) Define following terms.
1) Strut 2) Crushing load 3) Buckling load.
03
(b) Give the function and purpose of coupling. 04
(c) Find a diameter of solid steel shaft to transmit 20kW at 200r.p.m. the
ultimate shear stress for the steel may be taken as 360 MPa, and the
factor of safety as 8. If a hollow shaft is to be used in place of the
solid shaft, find the inside and outside diameter when the ratio of
inside to outside diameter is 0.5.
07
OR
Q.4 (a) Define following terms.
1) Slenderness ratio 2) Long column 3) Short column
03
(b) Explain different types of sunk keys with neat sketch. 04
(c) A shaft made up of mild steel is required to transmit 100kW at
300r.p.m. the supported length of the shaft is 3m.It carries two
pulleys each weighs 1500N supported at a distance of 1m from the
ends respectively. Take safe value of stress ? = 60N/mm
2
, determine
the diameter of shaft.
07
Q.5 (a) List out different elements of the production drawing 03
(b) Give Euler?s column theory and its assumptions. 04
(c) Give general procedure in design of a lever. 07
OR
Q.5 (a) Define surface roughness and how it is indicated on a drawing. 03
(b) Draw different types of end conditions of column. 04
(c) A handle for a turning a spindle of a large valve is shown in fig 5(c).
The length of the handle from the center of the spindle is 450 mm.
the handle is attached to the spindle by means of round tapered pin.
If an effort of 400 N is applied at the end of the handle find 1) mean
diameter of the tapered pin and 2) diameter of the handle. Take ?t =
100MPa in tension; ? = 55MPa in shear; assume that effort acts at a
distance 100 from the end of the handle.
Fig 5(c)
07
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This post was last modified on 20 February 2020