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1. Pattern Design and making - for one casting drawing.

2. Sand properties testing - Exercise -for strengths, and permeability – 1 3. Moulding Melting and Casting - 1 Exercise


1. ARC Welding Lap & Butt Joint - 2 Exercises 2. Spot Welding - 1 Exercise

3. TIG Welding - 1 Exercise

4. Plasma welding and Brazing - 2 Exercises a. (Water Plasma Device)


1. Blanking & Piercing operation and study of simple, compound and progressive press tool.

2. Hydraulic Press: Deep drawing and extrusion operation.

3. Bending and other operations IV PROCESSING OF PLASTICS

1. Injection Moulding 2. Blow Moulding


1. Dictionary of Mechanical Engineering – G.H.F. Nayler, Jaico Publishing House.


B.Tech. II Year II Sem. L T P C

0 0 3 2

Course Overview:

The aim of this course is to introduce basic principles of fluid mechanics and it is further extended to cover the application of fluid mechanics by the inclusion of fluid machinery.

Nowadays the principles of fluid mechanics find wide applications in many situations. The course deals with the fluid machinery, like turbines, pumps in general and in power stations.

This course also deals with the large variety of fluids such as air, water, steam, etc; however the major emphasis is given for the study of water.

Course Objectives:

 To understand the basic principles of fluid mechanics.

 To identify various types of flows.

 To understand boundary layer concepts and flow through pipes.

 To evaluate the performance of hydraulic turbines.

 To understand the functioning and characteristic curves of pumps.

Course Outcomes:

 Able to explain the effect of fluid properties on a flow system.

 Able to identify type of fluid flow patterns and describe continuity equation.

 To analyze a variety of practical fluid flow and measuring devices and utilize fluid mechanics principles in design.

 To select and analyze an appropriate turbine with reference to given situation in power plants.

 To estimate performance parameters of a given Centrifugal and Reciprocating pump.

 Able to demonstrate boundary layer concepts

List of Experiments

1. Impact of jets on Vanes.

2. Performance Test on Pelton Wheel.

3. Performance Test on Francis Turbine.

4. Performance Test on Kaplan Turbine.

5. Performance Test on Single Stage Centrifugal Pump.

6. Performance Test on Multi Stage Centrifugal Pump.

7. Performance Test on Reciprocating Pump.

8. Calibration of Venturimeter.

9. Calibration of Orifice meter.

10. Determination of friction factor for a given pipe line.

11. Determination of loss of head due to sudden contraction in a pipeline.

12. Verification of Bernoulli’s Theorems

Note: Any 10 of the above 12 experiments are to be conducted.


B.Tech. II Year II Sem. L T P C

0 0 3 2

Note: Minimum of 12 Exercises need to be performed

Course Overview:

By the end of the course student will be able to perform vibration analysis, balancing system and Trajectory planning of a robot in joint space scheme..

Course Objectives:

To create awareness on various vibration systems, gyroscopic couple, natural frequency and FFT analyzer.

Course Outcomes: At the conclusion of the course, students will have:

1. An understanding of the basic performance of steady state amplitude of a forced vibratory system

2. An understanding of the performance of Static balancing using steel balls 3. An understanding of basic Direct Kinematic analysis of a robot

4. An understanding of good laboratory practice.

5. An ability to prepare effective written reports on the performance Palletizing operation using Robot programming

List of Experiments:

1. Determination of damped natural frequency of vibration of the vibrating system with different viscous oils.

2. Determination of steady state amplitude of a forced vibratory system.

3. Static balancing using steel balls.

4. Determination of the magnitude and orientation of the balancing mass in dynamic balancing.

5. Field balancing of the thin rotors using vibration pickups.

6. Determination of the magnitude of gyroscopic couple, angular velocity of precession and representation of vectors.

7. Determination of natural frequency of given structure using FFT analyzer.

8. Diagnosis of a machine using FFT analyzer.

9. Direct Kinematic analysis of a robot.

10. Inverse Kinematic analysis of a robot.

11. Trajectory planning of a robot in joint space scheme.

12. Palletizing operation using Robot programming.


B.Tech. II Year II Sem. L T P C

3 0 0 0

Course Objectives:

 Understanding the importance of ecological balance for sustainable development.

 Understanding the impacts of developmental activities and mitigation measures

 Understanding the environmental policies and regulations

Course Outcomes: Based on this course, the Engineering graduate will understand /evaluate / develop technologies on the basis of ecological principles and environmental regulations which in turn helps in sustainable development


Ecosystems: Definition, Scope and Importance of ecosystem. Classification, structure and function of an ecosystem, Food chains, food webs and ecological pyramids. Flow of energy, Biogeochemical cycles, Bioaccumulation, Biomagnification, ecosystem value, services and carrying capacity, Field visits.


Natural Resources: Classification of Resources: Living and Non-Living resources, water resources: use and over utilization of surface and ground water, floods and droughts, Dams:

benefits and problems. Mineral resources: use and exploitation, environmental effects of extracting and using mineral resources, Land resources: Forest resources, Energy resources: growing energy needs, renewable and non renewable energy sources, use of alternate energy source, case studies.


Biodiversity And Biotic Resources: Introduction, Definition, genetic, species and ecosystem diversity. Value of biodiversity; consumptive use, productive use, social, ethical, aesthetic and optional values. India as a mega diversity nation, Hot spots of biodiversity. Field visit.

Threats to biodiversity: habitat loss, poaching of wildlife, man-wildlife conflicts;

conservation of biodiversity: In-Situ and Ex-situ conservation. National Biodiversity act.


Environmental Pollution and Control Technologies: Environmental Pollution:

Classification of pollution, Air Pollution: Primary and secondary pollutants, Automobile and Industrial pollution, Ambient air quality standards. Water pollution: Sources and types of pollution, drinking water quality standards. Soil Pollution: Sources and types, Impacts of modern agriculture, degradation of soil. Noise Pollution: Sources and Health hazards, standards, Solid waste: Municipal Solid Waste management, composition and characteristics