COURSE OBJECTIVES:
• Introduce the knowledge about vibrations and their applications
• Propose the concept of single, double and multi degree freedom systems for
un damped and damped free vibrations
• Study different types of forced vibrations and vibration measuring
instruments
• Analyze different problems in shaft due to vibrations
• Determine the natural frequencies in continuous system
COURSE OUTCOMES:
Upon completion of this course the student will be able to:
1. Analyze single degree freedom system for its natural frequency and damped response.
2. Analyze the response of Single degree freedom systems under harmonic excitations
3. Determine the response of Two degree freedom systems under free and forced
vibrations
4. Perform modal analysis to determine the natural frequencies of a multi degree of
freedom system
5. Analyze continuous systems for the determination of natural frequencies
- Teacher: Koteswara Rao Unnam
COURSE OBJECTIVES:
The objective of the course is to enable students to
• Understand robot configuration, structures, basic components, workspace and
generations of robots.
• Get acquainted with performing spatial transformations and solve kinematics of the
robot
• Get knowledge and analysis skills associated with trajectory planning
• Learn about various sensors, actuators, robot programming
• Understand the present &future applications of a robot.
COURSE OUTCOMES:
Upon completion of this course the students will be able to
1. Demonstrate knowledge of industrial robots, characteristics, end effectors and
2. Apply spatial transformation to obtain forward and inverse kinematics
3. Solve robot dynamics problems, generate joint trajectory for path planning
4. Describe working principle of various sensors and program different operations
5. Appreciate applications of robots in industry.
- Teacher: Dr Vijay Kumar G
COURSE OBJECTIVES:
• Define various advanced machining processes.
• Acquire knowledge in the elementary mechanism and the machin ability of
materials with different advanced machining processes.
• Determine basic principles of operation and various parameters influencing for
each machining process and their applications.
COURSE OUTCOMES:
Upon completion of this course the student will be able to:
1. Illustrate advanced machining processes, mechanism of Mechanical machining
processes, its applications and limitations.
2. Classify the Electro Chemical machining process, economic aspects of ECM.
3. Interpret Thermal Metal Removal Processes, characteristics of spark eroded
surface & machine tool selection.
4. Relate Generation and control of electron beam for machining and laser beam for
machining
- Teacher: Bala Krishna G
COURSE OBJECTIVES:
· Determine the vibration parameters of a vibrating system
· Predict the radius of gyration and moment of inertia of vibrating system
· Verify the static and dynamic balancing
· Study the effect of gyroscopic couple and operations of robotic arm
COURSE OUTCOMES:
Upon the completion of this course the student will be able to:
1. Evaluate the natural frequencies in different vibrating systems and effect of gyroscopic couple
2. Compute the radius of gyration & Moment of Inertia of oscillating part in vibration system
3. Apply the concepts of damping to determine damping coefficient
4. Measure the amplitude of vibration in damped and un damped vibrating system
5. Verify the static balancing and dynamic balancing
Implement the operations to manipulate the robot arm in industries- Teacher: Lakshmi Kanth CH
COURSE OBJECTIVES:
· Simulation lab course provides the undergraduates to perform the computational analysis and scientific computing in structural mechanics and heat transfer areas using FEA software.
COURSE OUTCOMES:
Upon the completion of this course the student will be able to:
1. Demonstrate the main stages of Finite Element analysis
2. Perform modeling and analysis of structural and heat transfer problems
- Teacher: Koteswara Rao Unnam
COURSE OBJECTIVES:
· Implement the basics of FEM to relate stresses and strains.
· Formulate the design and heat transfer problems with application of FEM.
· Solve 1 D, 2 D and dynamic problems using Finite Element Analysis approach.
COURSE OUTCOMES
Upon successful completion of this course, the student will be able to:
1. Implement numerical methods to solve mechanics of solids problems.
2. Formulate and Solve axially loaded bar Problems.
3. Formulate and analyze truss and beam problems.
4. Implement the formulation techniques to solve two-dimensional problems using triangle and quadrilateral elements.
5. Formulate and solve Axi-symmetric and heat transfer problems.
- Teacher: Somaiah Chowdary M
COURSE OBJECTIVES:
· To understand the problems and opportunities faced by the operations manager in manufacturing and service organizations.
· To develop an ability to apply PPC concepts in a various areas like marketing, accounting, finance, engineering, personnel management, logistics, etc.
· To integrate operations concepts with other functional areas of business
· To understand the PPC function in both manufacturing and service organizations.
· To examine several classic Operations Management planning topics including production planning and inventory control.
· To learn several important contemporary topics relevant to business managers of all functional disciplines, including quality management, lean concepts, and sustainability.
COURSE OUTCOMES:
Upon completion of this course the student will be able to:
1. Recognize the objectives, functions, applications of PPC and forecasting techniques.
2. Explain different Inventory control techniques.
3. Solve routing and scheduling problems
4. Summarize various aggregate production planning techniques.
5. Describe way of integrating different departments to execute PPC functions
- Teacher: Kishore Reddy CH
COURSE OUTCOMES:
At the end of course the students will be able to:
1. Demonstrate the mechatronic systems and sensors used in building mechatronic systems
2. Illustrate various types of actuation systems.
3. Discuss the modeling of basic systems and their dynamic response.
4. Describe the basic structure and functions of closed loop controllers, Microprocessor and micro controllers.
5. Discuss the basics of digital logic, PLC programming and applications of Fuzzy logic.
Pre-Requisites:
Basic electrical and electronics
- Teacher: Kavitha E