JNTUA M.Tech R25 Production Engineering & Engineering Design_Course Structure & Syllabus

The JNTUA M.Tech R25 – Production Engineering and Engineering Design programme is a two-year postgraduate course designed to provide advanced knowledge in design engineering, manufacturing systems, and industrial production technologies. The curriculum is structured across four semesters, combining core subjects, electives, laboratories, mini-project work, and research-based learning.

In the first semester, students study foundational advanced engineering subjects such as Advanced Mechanics of Solids, Advanced Machine Design, and System Design and Analysis. Along with these, electives like Mechanical Vibrations, Experimental Stress Analysis, and Mechanical Behavior of Materials are offered. Practical exposure is provided through labs such as Advanced Dynamics Lab and Materials Lab, helping students strengthen analytical and experimental skills.

The second semester focuses on design computation and simulation-based learning. Key subjects include Computer Aided Geometric Design (CAGD) and Advanced Finite Element and Boundary Element Methods (FEM/BEM). Students also study electives such as Mechatronics, Industrial Robotics, Reliability Engineering, and Design for Manufacturing and Assembly. Lab work includes Advanced Computer Aided Modelling and Analysis Labs, along with a Mini Project with Seminar, which encourages research orientation and real-world problem solving.

In the third semester, students move toward specialization through electives and advanced design topics such as Quality Concepts in Design, Six Sigma, Optimization Techniques, and Product Development methodologies. Audit courses and research methodology components are also included to enhance academic and professional skills.

The fourth semester is primarily dedicated to a major project/dissertation, where students apply engineering concepts to solve real-time industrial or research problems. This phase emphasizes innovation, design optimization, and implementation.

Overall, the R25 curriculum integrates design thinking, computational engineering, manufacturing systems, and research methodology, preparing graduates for careers in core mechanical industries, automotive design, production engineering, R&D, and higher research studies.