Dr. Mudda Nirish: Sr. R&D Engineer at Measure India Corporation Pvt. Ltd., India

Dr. Mudda Nirish is an accomplished researcher and Senior R&D Scientist with over 12 years of experience in mechanical engineering, specializing in Metal Additive Manufacturing (3D Printing), Smart Materials, and Robotics. He currently works at MIC Labs, Hyderabad, leading advanced R&D projects in testing and machine design. A recognized PhD supervisor and reviewer for multiple international journals, he is also involved in the development of cutting-edge technologies for aerospace and defense applications. Dr. Nirish is passionate about bridging the gap between technology and learning, particularly using innovative manufacturing techniques to drive sustainable solutions.

Online Profiles

Google Scholar Profile 

Dr. Mudda Nirish has established a strong and growing research presence in the field of Metal Additive Manufacturing and Smart Materials. His publications have received 104 citations, reflecting the relevance and influence of his work within the global research community. He holds an h-index of 6, demonstrating consistent citation across multiple high-quality papers, and an i10-index of 2, highlighting his contribution to impactful, widely referenced publications since 2020.

Education

Dr. Nirish holds a Ph.D. in Metal Additive Manufacturing from the University College of Engineering (A), Osmania University, Hyderabad, India, where his dissertation focused on the mechanical properties and optimization of AlSi10Mg parts manufactured by Selective Laser Melting. He also completed a Post-Doctoral Fellowship in Smart Materials (NiTiNol-SMA) at BITS Pilani, Hyderabad, contributing to the development of novel adaptive mechanisms for defense applications. His academic background is complemented by an M.Tech in Machine Design from Jawaharlal Nehru Technological University, Hyderabad.

Research Focus

Dr. Nirish’s research primarily focuses on Metal Additive Manufacturing, Smart Materials (particularly Shape Memory Alloys), Robotics and Automation, and High Entropy Alloys. His work involves the development and optimization of advanced manufacturing techniques such as Selective Laser Melting (SLM), Wire Arc Additive Manufacturing (WAAM), and Cold Metal Transfer (CMT), aiming for applications in aerospace, defense, and high-performance industrial components. His recent research also explores Topology Optimization for designing lightweight, high-strength materials for complex structures.

Experience

With over 12 years in academia and industry, Dr. Nirish’s professional journey includes roles as a Senior R&D Scientist/Engineer at MIC Labs (2024-present), a Post-Doctoral Researcher at BITS Pilani (2022-2024), and a Ph.D. Researcher at Osmania University (2018-2022). Prior to his research roles, he served as an Assistant Professor and Teaching Assistant at Aurora’s Scientific Technological & Research Academy, where he mentored students and contributed to curriculum development. His industry experience spans design, simulation, and testing of high-performance materials and systems.

Research Timeline & Activities

  • 2018–2022: Completed Ph.D. in Metal Additive Manufacturing at Osmania University, focusing on 3D printing of AlSi10Mg alloy and its mechanical performance.

  • 2022–2024: Conducted Post-Doctoral research on Smart Materials (NiTiNol-SMA) under the supervision of Prof. Amit Kumar Gupta at BITS Pilani.

  • 2024–Present: Senior R&D Scientist at MIC Labs, Hyderabad, working on machine design and testing innovations.

  • In addition to his research projects, Dr. Nirish has attended numerous international workshops on 3D printing, robotics, and materials processing, contributing to his ongoing professional development.

Awards & Honors

Dr. Nirish has received several accolades for his research excellence and contributions to the field of mechanical engineering. He has been recognized as a PhD Supervisor for mechanical engineering candidates at Bharath Institute of Higher Education and Research. He was awarded for his work in Metal Additive Manufacturing and Robotics in various academic and industry forums. His research papers have been published in top-tier journals, and he serves as a peer reviewer for multiple renowned international journals.

Top Noted Publications

  1. Suitability of Metal Additive Manufacturing Processes for Part Topology Optimization – A Comparative Study
    M Nirish, R Rajendra
    Materials Today: Proceedings 27 (2), 1601-1607, 2020
    Citations: 38
    This study offers a comparative analysis of various metal additive manufacturing (AM) processes for optimizing part topology, specifically focusing on their suitability for high-performance applications.

  2. Optimization of Process Parameter and Additive Simulation for Fatigue Strength Development by Selective Laser Melting of AlSi10Mg Alloy
    M Nirish, R Rajendra
    International Journal of Mechanical Engineering 7 (2), 3795-3802, 2022
    Citations: 15
    This paper explores the optimization of process parameters and simulation strategies for enhancing the fatigue strength of AlSi10Mg alloy fabricated via selective laser melting.

  3. Additive Simulation and Process Parameter Optimization for Wear Characterization Development by Selective Laser Melting of AlSi10Mg Alloy
    M Nirish, R Rajendra
    Journal of Characterization 2 (2), 103-116, 2022
    Citations: 9
    The study investigates the effect of process parameter optimization and additive simulations on improving the wear characteristics of AlSi10Mg alloy parts manufactured using selective laser melting.

  4. Heat Treatment Effect on the Mechanical Properties of AlSi10Mg Produced by Selective Laser Melting
    M Nirish, R Rajendra
    Journal of Mechanical Engineering Research and Developments 45 (2), 19-28, 2022
    Citations: 9
    This research focuses on the heat treatment effects on the mechanical properties of AlSi10Mg alloy parts produced via selective laser melting, offering valuable insights into material performance enhancement.

  5. Effect of Heat Treatment on Wear Characterization of AlSi10Mg Alloy Manufactured by Selective Laser Melting
    M Nirish, R Rajendra
    Journal of Mechanical Engineering Research and Developments 45 (2), 10-18, 2022
    Citations: 9
    This paper delves into the influence of heat treatment on the wear resistance of AlSi10Mg alloy manufactured by selective laser melting, offering a deeper understanding of material behavior under different thermal conditions.

ChatGPT said:

Strength for the Young Researcher Award:

Dr. Mudda Nirish’s contributions to the field of Mechanical Engineering, particularly in Metal Additive Manufacturing, Smart Materials, and Robotics, have positioned him as a leading young researcher in his field. The following five topics represent the core areas where his innovative work has made a significant impact:

  1. Metal Additive Manufacturing and Topology Optimization:
    Dr. Nirish’s groundbreaking research in metal additive manufacturing (3D printing) and topology optimization, particularly in the context of high-performance applications, has helped shape the future of lightweight, complex, and high-strength material structures. His work on the suitability of various AM processes for optimizing part topology, such as Selective Laser Melting (SLM) and Wire Arc Additive Manufacturing (WAAM), demonstrates his ability to drive innovation in manufacturing techniques.

  2. Optimization of Process Parameters for Fatigue and Wear Resistance:
    His research on the optimization of process parameters for Selective Laser Melting (SLM) of AlSi10Mg alloy has had a lasting impact on improving the fatigue strength and wear resistance of 3D-printed materials. His findings are crucial for industries like aerospace and automotive, where material performance under repeated stress is essential for long-term durability.

  3. Development of Smart Materials (NiTiNol-SMA) for Adaptive Systems:
    Dr. Nirish’s post-doctoral research on Smart Materials, particularly NiTiNol Shape Memory Alloys (SMAs), has led to the development of adaptive mechanisms for defense applications. His work has focused on improving the mechanical properties and design optimization of these materials to create more efficient and reliable systems for aerospace and robotics.

  4. Heat Treatment and Material Property Enhancement:
    His research on the effects of heat treatment on the mechanical properties and wear behavior of AlSi10Mg alloy fabricated via Selective Laser Melting has deepened the understanding of material behavior in additive manufacturing processes. This work has opened new avenues for improving the mechanical performance of 3D-printed metals in industrial applications.

  5. Leadership in R&D and Industry-Academia Collaboration:
    As a Senior R&D Scientist at MIC Labs and a PhD supervisor at Bharath Institute of Higher Education, Dr. Nirish has played a key role in bridging the gap between academia and industry. His leadership in advanced R&D projects related to machine design and testing, as well as his active role in mentoring young researchers, highlights his dedication to fostering the next generation of engineers and researchers.

Mudda Nirish, Materials Science, Young Researcher Award