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M-TECH in Machine Design at Rajarajeswari College of Engineering
Bengaluru, Karnataka
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About the Specialization
What is Machine Design at Rajarajeswari College of Engineering Bengaluru?
This Machine Design program at RajaRajeswari College of Engineering focuses on the advanced principles and practices required for designing, analyzing, and optimizing mechanical systems and components. It covers a comprehensive range of topics from advanced mechanics to contemporary design methodologies, crucial for modern engineering applications. The program is tailored to meet the evolving demands of Indian manufacturing, automotive, and aerospace industries, emphasizing innovation and problem-solving. It offers a blend of theoretical knowledge and practical skills, preparing students for complex design challenges.
Who Should Apply?
This program is ideal for mechanical engineering graduates seeking to specialize in product development, design, and manufacturing roles. It also suits working professionals from industries like automotive, heavy machinery, and aerospace who aim to enhance their design expertise or transition into R&D. Individuals with a strong analytical aptitude and an interest in applying advanced engineering principles to create innovative mechanical solutions will find this program particularly rewarding, providing a clear pathway for career advancement in India''''s industrial sector.
Why Choose This Course?
Graduates of this program can expect to pursue rewarding careers as Design Engineers, R&D Specialists, Product Development Managers, or CAE Analysts in leading Indian and multinational companies. Entry-level salaries typically range from INR 4-7 lakhs per annum, with experienced professionals commanding significantly higher packages. The program equips students with skills highly valued in India''''s growing industrial landscape, enabling them to contribute to sectors like automotive, manufacturing, and energy, with strong growth trajectories and opportunities for professional certifications.
Student Success Practices
Foundation Stage
Build Strong Analytical and Simulation Skills- (Semester 1-2)
Focus on mastering fundamental subjects like Advanced Mechanics of Materials and Finite Element Analysis. Regularly solve complex problems from textbooks and participate in hands-on sessions using FEA software (e.g., ANSYS, Abaqus) to simulate real-world mechanical behaviors. Join online courses or workshops to deepen understanding of simulation tools.
Tools & Resources
NPTEL courses on FEM, YouTube tutorials for ANSYS/Abaqus, Standard textbooks, Peer study groups, Campus lab facilities
Career Connection
Essential for roles in R&D, design validation, and CAE analysis, highly sought after in automotive and aerospace industries.
Engage in Departmental Projects and Workshops- (Semester 1-2)
Actively participate in mini-projects related to advanced vibrations, thermal systems, or robotics offered by the Mechanical Engineering department. Attend workshops on CAD/CAM, Mechatronics, or advanced materials to gain practical exposure beyond the curriculum. Seek mentorship from faculty for project guidance.
Tools & Resources
Departmental project labs, Faculty expertise, Industry partnership workshops, SolidWorks/CATIA/Creo software
Career Connection
Develops practical problem-solving abilities and enhances resume with hands-on project experience, valuable for entry-level design engineer positions.
Develop Technical Communication and Presentation Skills- (Semester 1-2)
Practice presenting technical topics learned in class to peers and faculty. Focus on clear articulation of concepts, design methodologies, and analysis results. Utilize library resources for research methodology and report writing. This is crucial for the Technical Seminar in Semester 2.
Tools & Resources
Presentation software (PowerPoint, Google Slides), Academic journals, Institutional library, Public speaking clubs, Faculty feedback
Career Connection
Strong communication skills are vital for conveying design ideas, project reports, and research findings to teams and stakeholders in any engineering role.
Intermediate Stage
Deep Dive into Specialization through Electives- (Semester 3)
Strategically choose elective subjects (Professional Electives I, II, III, IV) that align with specific career interests, such as advanced manufacturing, robotics, or materials technology. Supplement classroom learning with industry-specific case studies and specialized online courses. Actively participate in discussions and seek guest lectures from professionals in these areas.
Tools & Resources
MOOC platforms (Coursera, edX), IEEE Xplore, ASME journals, Industry webinars, Faculty consultation for elective choice
Career Connection
Builds niche expertise, making graduates highly competitive for specialized roles in R&D, product design, and specific industry sectors like automotive or aerospace.
Secure and Excel in a Relevant Internship/Industrial Training- (Semester 3 (summer break) or as part of project work)
Actively seek and complete an internship in a core machine design company or R&D department. Focus on applying theoretical knowledge to real-world projects, learning industry-standard tools, and understanding project management. Network with professionals and impress supervisors to potentially secure a pre-placement offer.
Tools & Resources
College placement cell, LinkedIn, Industry contacts, Company websites for internship postings, Alumni network
Career Connection
Provides invaluable industry exposure, builds a professional network, and significantly enhances employability and understanding of industry practices.
Initiate and Plan Capstone Project Work- (Semester 3)
Begin identifying a strong research problem for Project Work Phase - 1 that addresses a current industry need or a significant theoretical challenge. Conduct a thorough literature review, define clear objectives, and develop a detailed methodology. Work closely with a faculty guide and consider industry collaboration for a more impactful project.
Tools & Resources
Research databases (Scopus, Web of Science), Reference management software (Mendeley, Zotero), LaTeX for report writing, Project management tools
Career Connection
Demonstrates ability to conduct independent research, solve complex problems, and deliver impactful solutions, which is critical for R&D roles and higher studies.
Advanced Stage
Execute and Document Comprehensive Project Work- (Semester 4)
Diligent execution of Project Work Phase - 2, focusing on experimental validation, detailed simulation, or innovative design implementation. Maintain meticulous records, analyze results rigorously, and complete a high-quality dissertation. Prepare for and deliver a compelling final presentation demonstrating significant contributions.
Tools & Resources
Advanced simulation software (if applicable), Experimental setups, Statistical analysis tools (SPSS, R), LaTeX, Presentation software
Career Connection
The project is a primary showcase of acquired skills and problem-solving capabilities, crucial for placement interviews and demonstrating readiness for industry R&D.
Network Strategically and Attend Placement Drives- (Semester 4)
Actively engage with alumni, industry professionals, and recruiters through campus placement drives, career fairs, and professional networking events. Tailor your resume and portfolio to highlight machine design skills, project work, and internship experiences. Practice mock interviews and aptitude tests to prepare for company-specific hiring processes.
Tools & Resources
LinkedIn, College career services, Placement portal, Company websites, Mock interview platforms, Aptitude test books
Career Connection
Directly facilitates securing desired job roles in leading engineering and manufacturing companies, leveraging professional connections for career opportunities.
Develop Professional Portfolio and Soft Skills- (Semester 3-4)
Compile a comprehensive portfolio showcasing design projects, simulation results, reports, and any publications. Simultaneously, focus on refining soft skills such as teamwork, leadership, and ethical decision-making through group activities, workshops, and industry interactions. These are crucial for navigating workplace dynamics and career growth.
Tools & Resources
Online portfolio platforms (Behance, GitHub for design projects), Communication workshops, Leadership seminars, Group project opportunities
Career Connection
A strong portfolio differentiates candidates, while well-developed soft skills are essential for career progression, leadership roles, and effective collaboration in diverse teams.
Program Structure and Curriculum
Eligibility:
- B.E./B.Tech. in Mechanical Engg./Industrial Production Engg./Automobile Engg./Mechatronics Engg. or equivalent from an approved institution.
Duration: 4 semesters / 2 years
Credits: 92 Credits
Assessment: Internal: 50%, External: 50%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 22MEMD11 | Advanced Mechanics of Materials | Core Theory | 4 | Stress and Strain Analysis, Theories of Failures, Contact Stresses, Stress Concentration, Fracture Mechanics, Fatigue |
| 22MEMD12 | Advanced Theory of Vibration | Core Theory | 4 | Single Degree of Freedom Systems, Two Degree of Freedom Systems, Multi Degree of Freedom Systems, Continuous Systems, Vibration Control, Nonlinear Vibrations |
| 22MEMD13 | Design of Thermal Systems | Core Theory | 4 | Design of Heat Exchangers, Design of Boilers, Design of Compressors, Design of Turbines, Design for Energy Efficiency, Thermal System Optimization |
| 22MEMD14 | Finite Element Analysis | Core Theory | 4 | Basic Concepts of FEM, 1D Elements, 2D Elements, Isoparametric Formulation, Structural and Thermal Applications, Dynamic Analysis |
| 22MEMDL15 | Advanced Machine Design Lab 1 | Lab | 2 | Stress analysis experiments, Vibration testing, FEA software practicals, Material characterization, Component design exercises |
| 22MEMDL16 | Energy Lab | Lab | 2 | Heat exchanger performance, Boiler efficiency, Compressor testing, Renewable energy systems, Energy auditing |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 22MEMD21 | Advanced Machine Design | Core Theory | 4 | Design for Static Loading, Design for Fluctuating Loading, Advanced Bearings Design, Gear Design, Power Transmission Systems, Fatigue Design |
| 22MEMD22 | Robotics and Mechanisms | Core Theory | 4 | Robot Kinematics, Robot Dynamics, Robot Control, Manipulator Design, Workspace Analysis, Robotic Applications |
| 22MEMDE231 | CAD/CAM/CIM | Professional Elective - I | 4 | Geometric Modeling, NC Programming, CAD/CAM Integration, CNC Machining, Additive Manufacturing, Concurrent Engineering |
| 22MEMDE232 | Advanced Fluid Power Systems | Professional Elective - I | 4 | Hydraulic Pumps and Motors, Valves and Actuators, Pneumatic Systems, Electro-Hydraulic Systems, Circuit Design, Troubleshooting |
| 22MEMDE233 | Smart Materials and Structures | Professional Elective - I | 4 | Piezoelectric Materials, Shape Memory Alloys, Magnetorheological Fluids, Adaptive Structures, Smart Sensors, Actuators |
| 22MEMDE234 | Tribology and Bearing Design | Professional Elective - I | 4 | Friction and Wear, Lubrication Regimes, Hydrodynamic Bearings, Rolling Contact Bearings, Bearing Materials, Design for Life |
| 22MEMDE241 | Mechatronics System Design | Professional Elective - II | 4 | Sensors and Actuators, Microcontrollers, PLC Programming, System Integration, Data Acquisition, Embedded Systems |
| 22MEMDE242 | Micro and Nano Electromechanical Systems (MEMS & NEMS) | Professional Elective - II | 4 | Microfabrication, MEMS Devices, NEMS Devices, Sensors and Actuators, Bio-MEMS, Applications |
| 22MEMDE243 | Advanced Materials Technology | Professional Elective - II | 4 | Composite Materials, Ceramics, Polymers, Smart Materials, Material Characterization, Material Selection for Design |
| 22MEMDE244 | Optimization Techniques in Engineering | Professional Elective - II | 4 | Linear Programming, Non-Linear Programming, Genetic Algorithms, Simulated Annealing, Multi-Objective Optimization, Design Optimization |
| 22MEMDL25 | Advanced Machine Design Lab 2 | Lab | 2 | Robot programming, Mechanism synthesis, CAD software, Mechatronics system building, PLC applications, Advanced manufacturing |
| 22MEMDPC26 | Technical Seminar | Project/Seminar | 2 | Literature survey, Technical presentation skills, Research methodology, Report writing, Current trends in machine design, Innovative concepts |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 22MEMDE311 | Advanced Manufacturing Processes | Professional Elective - III | 4 | Metal Forming, Welding, Machining, Rapid Prototyping, Surface Engineering, Non-Traditional Machining |
| 22MEMDE312 | Vehicle Dynamics | Professional Elective - III | 4 | Tire Mechanics, Suspension Systems, Braking Systems, Steering Systems, Ride and Handling, Vehicle Stability |
| 22MEMDE313 | Design for Manufacturing and Assembly (DFMA) | Professional Elective - III | 4 | Product Life Cycle, Design for Assembly, Design for Manufacturability, Cost Reduction, Quality Engineering, Environmental Design |
| 22MEMDE314 | Continuum Mechanics | Professional Elective - III | 4 | Stress and Strain Tensors, Constitutive Equations, Elasticity, Plasticity, Fluid Mechanics Principles, Viscoelasticity |
| 22MEMD32 | Research Methodology and IPR | Core Theory | 4 | Research Problem Formulation, Data Collection Methods, Statistical Analysis, Report Writing, Intellectual Property Rights, Patenting Process |
| 22MEMDE331 | Advanced Composite Materials | Professional Elective - IV | 4 | Fiber Reinforcements, Matrix Systems, Manufacturing Processes, Mechanical Properties, Design with Composites, Failure Analysis |
| 22MEMDE332 | Product Design and Development | Professional Elective - IV | 4 | Customer Needs, Concept Generation, Product Architecture, Industrial Design, Prototyping, Market Analysis |
| 22MEMDE333 | Maintenance Engineering | Professional Elective - IV | 4 | Reliability Engineering, Condition Monitoring, Predictive Maintenance, Total Productive Maintenance, Failure Analysis, Spares Management |
| 22MEMDE334 | Artificial Intelligence in Mechanical Engineering | Professional Elective - IV | 4 | Machine Learning Basics, Neural Networks, Expert Systems, Robotics AI, Optimization, Predictive Maintenance |
| 22MEMDP34 | Project Work Phase - 1 | Project | 8 | Problem identification, Literature review, Methodology formulation, Project planning, Preliminary design, Initial results |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 22MEMDP41 | Project Work Phase - 2 | Project/Dissertation | 24 | Detailed design, Experimental validation, Simulation and analysis, Result interpretation, Thesis writing, Final presentation |
