Download GTU BE/B.Tech 2019 Winter 8th Sem New 2180206 Automobile System Design Question Paper

Download GTU (Gujarat Technological University) BE/BTech (Bachelor of Engineering / Bachelor of Technology) 2019 Winter 8th Sem New 2180206 Automobile System Design Previous Question Paper

1
Seat No.: ________ Enrolment No.___________

GUJARAT TECHNOLOGICAL UNIVERSITY

BE - SEMESTER ? VIII (New) EXAMINATION ? WINTER 2019
Subject Code: 2180206 Date: 29/11/2019

Subject Name: Automobile system 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.

Q.1 (a) Which properties should clutch fluid have? 03
(b) What is the requirement of automobile clutch? 04
(c) A single plate clutch (both side effective) is required to transmit
27KW at 1600 rpm. The outer diameter of the plate is limited to 30
cm and intensity of pressure between the plates is not to exceed 7
N/cm
2
.Assuming uniform wear and a co-efficient of friction 0.3.,
find the required inner diameter of the plates and axial force
necessary to engage the clutch.
07
Q.2 (a) What is a self-energizing brake? When a brake becomes self-
locking?
03
(b) Why the critical speed of propeller shaft is important? 04
(c) A motor car has a wheel base of 225 cm. the height of its C.G. above
the ground is 0.55 m and it is 100 cm in front of the rear axle. If the
car is travelling at 45 km/hr on a level track, determine the minimum
distance in which the car may be stopped, when
1. The rear wheels are braked
2. The front wheels are braked
3. All wheels are braked
The coefficient of friction between tyre and road may be taken as
0.6.
07
OR
(c) An automobile weighing 16 KN is travelling at the rate of 100 km/h.
it is to be stopped in a distance of 90 m. the tyre diameter is 80 cm.
calculate the following:
1. Average braking torque applied to stop the automobile.
2. Co-efficient of friction between tyre and road.
3. Average temperature rise of the drum if the frictional energy
is momentarily stored in 200 N C.I. drum.
Assume that the weight of the automobile is equally distributed
among the wheels. Neglect all frictional energy except for the brake.
07
Q.3 (a) Explain the function of limited slip differential. 03
(b) Explain fully floating axle with neat sketch. 04
(c) What is the function of universal joints? Where are the universal
joints used in automobile? List down the different types of universal
joints and draw schematic diagram.
07
OR
Q.3 (a) Explain the Ackermann steering principle. 03
(b) Explain double wishbone type suspension system with neat sketch. 04
(c) Explain different types of axles used in automobile and give function
of differential used in automobile.
07
Q.4 (a) Write advantages and disadvantages of the internal expanding shoe
brake.
03
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1
Seat No.: ________ Enrolment No.___________

GUJARAT TECHNOLOGICAL UNIVERSITY

BE - SEMESTER ? VIII (New) EXAMINATION ? WINTER 2019
Subject Code: 2180206 Date: 29/11/2019

Subject Name: Automobile system 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.

Q.1 (a) Which properties should clutch fluid have? 03
(b) What is the requirement of automobile clutch? 04
(c) A single plate clutch (both side effective) is required to transmit
27KW at 1600 rpm. The outer diameter of the plate is limited to 30
cm and intensity of pressure between the plates is not to exceed 7
N/cm
2
.Assuming uniform wear and a co-efficient of friction 0.3.,
find the required inner diameter of the plates and axial force
necessary to engage the clutch.
07
Q.2 (a) What is a self-energizing brake? When a brake becomes self-
locking?
03
(b) Why the critical speed of propeller shaft is important? 04
(c) A motor car has a wheel base of 225 cm. the height of its C.G. above
the ground is 0.55 m and it is 100 cm in front of the rear axle. If the
car is travelling at 45 km/hr on a level track, determine the minimum
distance in which the car may be stopped, when
1. The rear wheels are braked
2. The front wheels are braked
3. All wheels are braked
The coefficient of friction between tyre and road may be taken as
0.6.
07
OR
(c) An automobile weighing 16 KN is travelling at the rate of 100 km/h.
it is to be stopped in a distance of 90 m. the tyre diameter is 80 cm.
calculate the following:
1. Average braking torque applied to stop the automobile.
2. Co-efficient of friction between tyre and road.
3. Average temperature rise of the drum if the frictional energy
is momentarily stored in 200 N C.I. drum.
Assume that the weight of the automobile is equally distributed
among the wheels. Neglect all frictional energy except for the brake.
07
Q.3 (a) Explain the function of limited slip differential. 03
(b) Explain fully floating axle with neat sketch. 04
(c) What is the function of universal joints? Where are the universal
joints used in automobile? List down the different types of universal
joints and draw schematic diagram.
07
OR
Q.3 (a) Explain the Ackermann steering principle. 03
(b) Explain double wishbone type suspension system with neat sketch. 04
(c) Explain different types of axles used in automobile and give function
of differential used in automobile.
07
Q.4 (a) Write advantages and disadvantages of the internal expanding shoe
brake.
03
2
(b) Explain function of brake proportioning valve. 04
(c) An automobile engine develops a maximum torque of 165 N. the
low gear ratio of transmission is 2.75, while the back axles ratio is
4.25. The effective wheel radius is 0.325m and the coefficient of
friction between the tire and the road surface is 0.6. If the permissible
shear stress is 33000 N/cm2, determine the maximum shaft diameter,
assuming that the load is nearly torsional. What is the maximum load
permissible on each wheel?
07
OR
Q.4 (a) Write the condition for correct steering. 03
(b) Differentiate the drum brake and disc brake. 04
(c) Explain Johnson?s method of optimum design with suitable
example.
07
Q.5 (a) Which factors affecting the selection of material for spring wires? 03
(b) Explain various rubber springs with neat sketch. 04
(c) It is required to design a helical compression spring subjected to a
maximum force of 1250 N. the deflection of the spring
corresponding to the maximum force should be approximately 30
mm. the spring index can be taken as 6. The spring is made of
patented and cold-drawn steel wire of Grade-1. The constant A and
m can be taken as 1753 and 0.182 respectively (G= 81370 N/mm
2
).
The permissible shear stress for the spring wire should be taken as
50% of the ultimate tensile strength. Design the spring and calculate:
1. Wire diameter 2. Mean coil diameter 3. No. of active coils 4.
Total no. of coils
07
OR

Q.5 (a) Explain the components of leaf spring with neat sketch. 03
(b) Differentiate the rigid axle suspension & independent suspension. 04
(c) A carriage spring is to be 100 cm long and build-up of 7.5 cm wide
and 1 cm thick plates required for the spring if a central load of
17500 N is to be carried without exceeding the bending stress of
11500 N/cm2, What should be the central deflection and the initial
radius to which the plates must be bent so that they straighten out
under the load? Take E=21*10
6
N/cm
2
.

07

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This post was last modified on 20 February 2020