Assistant Professor | AMET University | India
Dr. M. Ramamurthy is a highly accomplished academician and researcher with extensive experience in Experimental Methods applied to mechanical and manufacturing engineering. His professional journey spans across several reputed engineering institutions, where he has contributed to Experimental Methods in teaching, research, and curriculum design. Holding a Ph.D. from Anna University with a focus on friction stir welding, Dr. M. Ramamurthy has published multiple papers in international journals emphasizing Experimental Methods for optimizing welding parameters, material characterization, and process analysis. His expertise extends to Experimental Methods in advanced materials, composite fabrication, and surface modification, reflecting a strong grasp of both theoretical and practical domains. He has participated in numerous conferences and workshops, showcasing his innovative applications of Experimental Methods in materials science and production engineering. Recognized for his contributions, he holds patents and authored book chapters on Experimental Methods for sustainable material development. His professional affiliations include ISTE, IAENG, and PMAI, demonstrating his commitment to continuous learning and collaboration. His research skills encompass Experimental Methods involving friction stir processes, multi-objective optimization, and mechanical testing. Dr. M. Ramamurthy’s awards and honors reflect his dedication to innovation and knowledge dissemination in Experimental Methods. With a balanced blend of academic and industrial exposure, he consistently integrates Experimental Methods into education, research, and technology development. In conclusion, Dr. M. Ramamurthy’s distinguished career exemplifies excellence in Experimental Methods, advancing engineering practices and inspiring future researchers.
Profiles: Google Scholar | ORCID
Featured Publications
1. Ramamurthy, M., Balasubramanian, P., Senthilkumar, N., & G. (2022). Influence of process parameters on the microstructure and mechanical properties of friction stir welds of AA2014 and AA6063 aluminium alloys using response surface methodology. Materials Research Express, 9, 70.
2. Senthilkumar, N., Thanikasalam, A., Stalin, K., Ramamurthy, M., & Lazar, P. (2024). Mechanical characterization of epoxy-nanoclay-kenaf fiber polymer composites. International Conference on Advanced Materials Manufacturing and Structures.
3. Ramamurthy, M., & Balasubramanian, P. (2022). Parametric optimization in friction stir joining of AA2014 and AA6061 alloys through entropy based multiobjective GRA approach. Materials Today: Proceedings, 59, 1249–1255.
4. Ramamurthy, M., Vasanthkumar, N. P., Perumal, G., & Senthilkumar, N. (2025). Formulation and features of chitosan and natural fiber blended bio-composite towards environmental sustainability. Journal of Environmental Nanotechnology, 14(1), 104–112.
5. Senthilkumar, N., Thanikasalam, A., Stalin, K., Ramamurthy, M., & Lazar, P. (2024). Thermal studies on palm fibre and rice husk ash-reinforced epoxy resin composite. International Conference on Advanced Materials Manufacturing and Structures.