s6 mech cad lab model exam question paper
DESCRIPTION
Model exam question paper of CAD Lab S6 MechTRANSCRIPT
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Page 1 of 2 P.T.O
Roll No.: .
Name: .
ST.THOMAS INSTITUTE FOR SCIENCE & TECHNOLOGY THIRUVANANTHAPURAM
08.607 CAD Analysis Lab
Sixth Semester Mechanical Engineering
Lab Internal Exam, May 2013
Time: 3 hours Max. Marks: 100
1. Figure shows the details of FLANGED COUPLING (Protected type).
Create the 3D model and assemble the parts of the Flanged Coupling
using Solid Edge ST4. (50 marks)
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Page 2 of 2
2. Find the deflection of each joint under loading as shown in fig. Cross
sectional area is 5000mm2, E= 13GPa.
(50 marks)
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Page 1 of 2 P.T.O
Roll No.: .
Name: .
ST.THOMAS INSTITUTE FOR SCIENCE & TECHNOLOGY THIRUVANANTHAPURAM
08.607 CAD Analysis Lab
Sixth Semester Mechanical Engineering
Lab Internal Exam, May 2013
Time: 3 hours Max. Marks: 100
1. Figure shows the details of UNIVERSAL COUPLING (Hooks Joint).
Create the 3D model and assemble the parts of the Universal Coupling
using Solid Edge ST4. (50 marks)
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Page 2 of 2
2. Find out the axial deflection and stress of an axial member of cross
section 100x100mm and 1000mm long subjected to an axial load of
1000N at the free end. The axial member is made of 4340 steel.
(50 marks)
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Page 1 of 2 P.T.O
Roll No.: .
Name: .
ST.THOMAS INSTITUTE FOR SCIENCE & TECHNOLOGY THIRUVANANTHAPURAM
08.607 CAD Analysis Lab
Sixth Semester Mechanical Engineering
Lab Internal Exam, May 2013
Time: 3 hours Max. Marks: 100
1. Figure shows the details of SOCKET AND SPIGOT JOINT (Cotter
Joint). Create the 3D model and assemble the parts of the Socket and
Spigot Joint using Solid Edge ST4. (50 marks)
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Page 2 of 2
2. Find the maximum deflection of a cantilever beam having a length of
1m and cross section of 200 x 100 mm. The load applied is 10 KN. E
= 210 GPa.
(50 marks)
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Page 1 of 2 P.T.O
Roll No.: .
Name: .
ST.THOMAS INSTITUTE FOR SCIENCE & TECHNOLOGY THIRUVANANTHAPURAM
08.607 CAD Analysis Lab
Sixth Semester Mechanical Engineering
Lab Internal Exam, May 2013
Time: 3 hours Max. Marks: 100
1. Figure shows the details of SLEEVE AND COTTER JOINT (Cotter
Joint with Sleeve). Create the 3D model and assemble the parts of the
Sleeve and Cotter Joint using Solid Edge ST4. (50 marks)
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Page 2 of 2
2. Find maximum deflection of a simply supported beam having a length
of 1m and cross section of 200x 100 mm and 200mm is mean height. A
centralized load of 10KN is applied. E= 210 GPa for steel.
(50 marks)