Dr. Sainand Jadhav | Mechanical Engineering | Emerging Researcher Award

Assistant Professor | Kennesaw State University | United States

Dr. Sainand M. Jadhav is an accomplished emerging researcher in the field of Mechanical Engineering, specializing in additive manufacturing, advanced materials, and welding technologies. He earned his Ph.D. in Mechanical Engineering from Tennessee Technological University, USA, in 2024, after completing his Master’s and Bachelor’s degrees in Mechanical Engineering in India. His doctoral research primarily focused on wire arc additive manufacturing (WAAM) of refractory alloys and the development of bimetallic structures with tailored properties for industrial applications. With over thirteen years of academic involvement and three and a half years of concentrated research, he has gained significant international experience through collaborations with Oak Ridge National Laboratory, USA, and leading research institutes in South Korea. Professionally, Dr. Jadhav has served as a faculty member and mentor, imparting knowledge in mechanical design, manufacturing, and materials engineering while actively guiding student research projects. His research interests include metal additive manufacturing, WAAM of refractory and high-temperature alloys, bimetallic structures, materials characterization, and the development of sustainable and advanced manufacturing processes. He possesses strong research skills in process optimization, alloy design, computational modeling, and advanced characterization techniques, complemented by hands-on expertise in welding, fabrication, and mechanical testing. Dr. Jadhav has authored impactful publications in globally recognized journals such as Additive Manufacturing, International Journal of Refractory Metals and Hard Materials, Virtual and Physical Prototyping, and IEEE conferences, reflecting both the quality and relevance of his work. His growing reputation has also been supported by invitations to participate in collaborative projects, workshops, and academic exchanges. He has been recognized with prestigious honors, including research fellowships, scholarships, and awards that highlight his contributions to the advancement of metal additive manufacturing. As an educator and mentor, he continues to inspire young engineers and researchers to explore sustainable manufacturing and innovative material solutions. Looking ahead, Dr. Jadhav aims to expand his international collaborations, publish in high-impact Q1 journals, and participate in global conferences as a keynote speaker, thereby contributing further to the field of additive manufacturing and materials science. His career trajectory demonstrates a blend of academic dedication, technical expertise, and research innovation that positions him as a future leader in advanced manufacturing. According to Scopus, his research output includes 15 documents with 105 citations by 83 documents and an h-index of 6, reflecting the growing influence and recognition of his scholarly work.

Featured Publications

1. Karim, D. M. A., Jadhav, S., Kannan, R., Pierce, D., & Yousub, … (2024). Investigating stainless steel/aluminum bimetallic structures fabricated by cold metal transfer (CMT)-based wire-arc directed energy deposition. Additive Manufacturing, 81, 104015. Citations: 37

2. Shin, S.-J., Lee, J.-H., & Jadhav, S. (2023). Material-adaptive anomaly detection using property-concatenated transfer learning in wire arc additive manufacturing. International Journal of Precision Engineering and Manufacturing. Citations: 26

3. Shin, S.-J., Hong, S.-H., & Jadhav, S. (2023). Detecting balling defects using multisource transfer learning in wire arc additive manufacturing. Journal of Computational Design and Engineering, 10(4), 1423–1442. Citations: 19

4. Mohite, D. D., & Jadhav, S. (2016). An investigation of effect of dressing parameters for minimum surface roughness using CNC cylindrical grinding machine. Euro Asia Research and Development Association, 6(6). Citations: 18

5. Swami, S. A., Jadhav, S., & Deshpande, A. (2016). Influence of MIG welding process parameters on tensile properties of mild steel. European Journal of Engineering and Technology Research, 1(2), 1–5. Citations: 16