Download AKTU B-Tech 6th Sem 2018-2019 RME603 Machine Design II Question Paper

Download AKTU (Dr. A.P.J. Abdul Kalam Technical University (AKTU), formerly Uttar Pradesh Technical University (UPTU) B-Tech 6th Semester (Sixth Semester) 2018-2019 RME603 Machine Design II Question Paper

Printed Pagesz03 Sub Code: RME603
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B.TECH.
(SEM VI) THEORY EXAMINATION 2018-19
MACHINE DESIGN-II
T ime: 3 Hours T and Marks: 70
Note: 1. Attempt all Sections. If require any missing data; then choose suitably.
SECTION A
1. Attempt all questions in brief. 2 x 7 = 14
(a) What do you understand by Formative spur gear? in helical gears?
(b) Explain the construction of involute profile.
(c) A pair of parallel helical gears consists of 18 teeth pinion meshing with a 63
teeth gear. The helix angle is 23 degree while the normal pressure angle is 20
degree. Calculate axial pitch.
(d) In which gear self?locking is possible? Give the condition for self?locking.
(e) What do you mean by hydrodynamic lubrication?
(1) What is L10 life?
(g) What are the desirable properties of piston materials?
SECTION B
2. Attempt any three of the following: 7 x 3 = 21
(a) Derive the expression for Lewis beam strength equation with proper
assumption for spur gear.
(b) A pair of parallel helical gears consists of an 18 teeth pinion meshing with a 45
teeth gear. A 7.5 kW power at 2000 rpm is supplied to the pinion through its
shaft. The normal module is 6mm, while the normal pressure angle is 20 ?. The
helix angle is 23 ?. Determine the tangential, radial and axial components of the
resultant tooth force between the meshing teeth.
(c) A pair of worm gear is designated as 3/60/8/5. The worm rotates at 720 rpm
and normal pressure angle is 20 ?. Worm is made of case hardened steel, and the
gear of phosphor bronze and worm set is well lubricated. Determine the power
lost due to friction when power input is 1kW.
(d) The radial load acting on a ball bearing is 2500N for the first five revolutions
and reduces to 1500N for the next ten revolutions; the load variation then
repeats itself. The expected life of the bearing is 20 million revolutions.
Determine the dynamic load rating capacity of the bearing.
(e) Determine the amount of artificial cooling, if required for a centrifugal pump
running at 1440 rpm, the diameter of the journal is is 100mm and the load on
each bearing is 20 kN. The bearing characteristics number can be taken as 29.5.
the bearing temperature is 75 ?C, the ambient temperature is 28 ?C, the energy
dissipation coefficient is 900W/m2/ ?C.
SECTION C
3. Attempt any one part of the following: 7 x 1 = 7
(a) A 20? full depth involute pair of spur gears is to be designed. Driving shaft
rotates at 750 rpm and receives a 7.5 kW power, Speed reduction of output
shaft is 5 times. The gears are made of steels with Sut2480MPa. Service factor

Printed Pagesz03 Sub Code: RME603
is 1.5 and face width is 8.5 times of the module. The gears are machined t0 the
accuracy of Grade 8. Assume a pitch line velocity of 3.6 m/s, factor of safety is
2 and deformation factor is 11.4 GPa. Estimate the module of the gear and
determine and determine the dynamic load using Buckingham?s equation.
(b) A pair of parallel helical gears consists of 25 teeth pinion meshing with a 120
teeth gear. Normal pressure angle is 20? and helix angle is 25 ?. The pinion
rotates at 800 rpm. Normal module of gear is 5mm and face width is 50 mm.
Both pinion and gear are made of steel with allowable bending strength of 330
MPa. Gears are heat treated to a surface hardness of 380 BHN. What power can
be transmitted by gears if service factor is 1.3? Assume pitch line velocity
factor takes into account for dynamic load.
4. Attempt any one part of the following: 7 x 1 = 7
(a) A pair of straight bevel gears is mounted on shafts, which are intersecting at
right angles. The number of teeth on the pinion and gear are 40 and 65
respectively. The pressure angle is 20?. The pinion shaft is connected to an
electric motor developing 16.5kW rated power at 600 rpm. The service factor
can be taken as 1.5. The pinion and the gear are made of steel (Sut=580 N/mmz)
and heat treated to a surface hardness of 350 BHN. The gears are manufactured
in such a way that the error between two meshing teeth is limited to 21
microns. The module and face width are 6mm and 50 mm, respectively.
Determine the factor of safety against bending and pitting failure.
(b) Design a worm and worm gear drive for a speed reduction of 30. Worm rotates
at 750 rpm and transmits 40kW. Assume double start thread and gear has 65
full depth 20 ? involute teeth.
5. Attempt any one part of the following: 7 x 1 = 7
(a) Explain the mechanism of Hydrostatic and Hydrodynamic lubrication. Write
five differences between them.
(b) Following data is given for a full hydrodynamic bearing
Radial 10ad=25 kN
Journal speed=1000 rpm
Unit Bearing pressure: 2.5 MPa
Viscosity of lubricant: 20cP
L/D=1
Ratio of minimum film thickness to radial c1earance=0.25.
Determine:
(i) dimensions of the bearing
(ii) minimum film requirements
(iii) requirements of oil ?ow
6. Attempt any one part of the following: 7 x 1 = 7
(a) A system involves four identical ball bearings each subjected to a radial load of
2500 N. the reliability of the system i.e. one out of four bearings failing during
the lifetime of 5MR is 82%. Determine the dynamic load carrying capacity of
the bearing, so as to select it from the manufacturer?s catalogue based on 90%
reliability.

Printed Pagesz03 Sub Code: RME603
(b) A ball bearing operates on the following work cycle.
S. Radial Speed Element
No. Load (N) (rpm) time (%)
1 3000 720 30
2 7000 1440 50
3 5000 900 20
The dynamic load capacity of the bearing is 16.6kN. Calculate:
(1) average speed of rotation
(ii) equivalent radial load
(iii) the bearing life
7. Attempt any one part of the following: 7 x 1 = 7
(a) The cylinder of a four stroke diesel engine has the following specifications:
Cylinder bore: 150 mm
Maximum pressure: 3.5 MPa
Cylinder material: GCI FG200
Factor of safety:6
Poisson?s ratio: 0.25
Determine the thickness of the cylinder wall. Also calculate the apparent and
net circumferential stresses in the cylinder wall.
(b) Design a CI piston for a single acting four stroke diesel engine with following
data:
Cylinder bore: 300 mm
Length of stroke: 450 mm
Speed: 300rpm
Indicated mean effective pressure: 0.85 MPa
Maximum gas pressure: 5MPa
Fuel consumption: 0.30 kg/BP/hr
HCV: 44000kJ/kg
Assume suitable if required and state suitable assumptions.