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  #2  
8th June 2015, 02:59 PM
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Join Date: Apr 2013
Re: BPUT Mechanical 4th Sem Syllabus

You need Patnaik University of Technology, Orissa B.Tech Mechanical Engineering 4th SEM course syllabus, here I am giving:

B.Tech Mechanical Engineering 4th SEM

4th SEM
Mathematics - IV
Kinematics &
Dynamics of Machines
Engg.Thermodynamics
Basic Manufacturing
Processes
Organizational Behaviour
OR
Engg. Economics & Costing

Free Electives:
Energy Conversion Techniques/
Surveying
C++ & Object Oriented Programming/
Analog and Digital Electronics

Theory credits:
Material Testing
Hydraulic Machines Lab
Machine Shop and
Fabrication Practice
Mechanical Engineering Lab
Communication & Interpersonal
Skills for Corporate Readiness


BPUT B.Tech ME syllabus





Attached Files
File Type: pdf BPUT B.Tech ME syllabus.pdf (771.9 KB, 1516 views)
  #3  
6th December 2016, 01:07 AM
Unregistered
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bro this is old syllable, now the subjects have been changed ……so Give us the new one
  #4  
18th December 2019, 03:29 PM
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Re: BPUT Mechanical 4th Sem Syllabus

Can you provide me the syllabus of B. Tech (Mechanical Engineering) 4th Sem Program offered by Biju Patnaik University of Technology (BPUT)?
  #5  
18th December 2019, 03:32 PM
Super Moderator
 
Join Date: Oct 2019
Re: BPUT Mechanical 4th Sem Syllabus

The syllabus of B. Tech (Mechanical Engineering) 4th Sem Program offered by Biju Patnaik University of Technology (BPUT) is as follows:


PME4I101 MECHANISMS AND MACHINES

MODULE – I (8 HOURS)


1. Mechanisms with lower pairs : Motor Vehicle Steering Gears - Davis Steering Gear &
Ackermann Steering Gear, Hooke’s Joint.

2. Cams Design: Fundamental law of Cam, Cam Terminology, Classification of Cams and followers, Analysis of follower motions (Displacement, velocity, Acceleration and jerk) – Simple Harmonic, Uniform Velocity and Constant Acceleration & Retardation Types, Generation of Cam Profiles by Graphical Method, Introduction on Cams with specified contours.


MODULE – II (8 HOURS)

3. Turning Moment Diagram and Flywheel: Turning moment diagram. Turning moment
diagrams for different types of engines, Fluctuation of energy and fluctuation of speed. Dynamic Theory of Flywheel, Flywheel of an internal combustion engine and for a punch machine
Determination of flywheel size from Turning Moment Diagram


4. Gears : Theory of shape and action of tooth properties and methods of generation of standard tooth profiles, Standard proportions, Force analysis, Path of contact, Arc of contact, Contact ratio, Interference and Undercutting, Methods for eliminating Interference, Minimum number of teeth to avoid interference.


MODULE III (8 HOURS)

5. Mechanism for Control (Governors): Governors - Watt, Porter, Proell, Hartnell, WilsonHartnell Governor. Performance parameters: Sensitiveness, Stability, Hunting, Isochronism.
Governor Effort and Power, Controlling Force & Controlling Force Curve, Friction & insensitiveness, Comparison between governor and flywheel

6. Mechanism for Control (Gyroscope): Introduction to Gyroscopes. Gyroscopic forces and
Couple. Effect of Gyroscopic Couple on Aeroplanes, Gyroscopic stabilization of ship, Stability of Two Wheelers and Four Wheelers Rigid disc at an angle fixed to rotating shaft.


MODULE IV (8 HOURS)

7. Balancing of rotating components and linkages: Static and Dynamic Balancing, Balancing of Single Rotating Mass by Balancing Masses in Same plane and in Different planes. Balancing of Several Rotating Masses rotating in same plane and in Different planes. Effect of Inertia Force due to Reciprocating Mass on Engine Frame, Partial balance of single cylinder engines. Primary and Secondary Balance of Multi-cylinder In-line Engines Balancing of locomotive: variation of tractive force, swaying couple, hammer blow. Direct and Reverse Crank method of balancing for radial engines. Balancing of V-engine. Balancing machines: Pivoted-Cradle Balancing Machine.


8. Vibrations: Introduction to Mechanical Vibration – Definitions, elements of vibratory system, Longitudinal, Torsional & Transverse Systems. Differential equations and solutions of motion for a coupled spring mass system. Determination of natural frequency of vibratory systems using energy method, equilibrium method and Rayleigh’s method, Free and Forced Vibration of Un-damped and
Damped Single Degree Freedom Systems, Logarithmic decrement, Magnification factor, Vibration isolation and transmissibility, whirling of shafts and Evaluation of Critical Speeds of shafts.



TEXT BOOKS
1. Theory of Machines by S.S.Rattan, Tata MacGraw Hill
2. Theory of Machines and Mechanisms (India Edition) by John J. Uicker Jr., Gordon R.
Pennock and Joseph E. Shigley, Oxford University Press
3. Mechanism and Machine Theory by J.S.Rao and R.V.Dukipatti, New Age International.
4. Theory of Mechanisms and Machines by A. Ghosh & A. K. Mallick, East West Press.



Syllabus B. Tech (Mechanical Engineering) 4th Sem Biju Patnaik University of Technology





  #6  
24th December 2019, 05:39 PM
Rishav thakur
Guest
 

when release 4th semester syllabus


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