Shaurya Bhatt

Senior Research Fellow with expertise in designing and testing advanced lower limb prosthetics at NIT-Uttarakhand. Proficient in SolidWorks and finite element analysis, I excel in developing and characterizing biocomposite materials derived from natural fiber for use in prostheses. My collaborative approach and problem-solving skills drive impactful solutions for amputees, enhancing mobility and quality of life.

• Biocomposite prosthesis for transtibial amputees with energy-restoring capability

(application number 480334-001, filed with thedesign office at Innovation and Translation Research (ITR) Unit, Indian Council of Medical Research, New Delhi, on 14-11-2025)

• A novel fiber reinforced biodegradable composite and method of preparing same.

Patent no - 531351. Granted - 01/04/2024.

• Comparative Multi-Response Optimization of Mechanical Properties in Jute/Flax-Epoxy Composites Processed by Hand Layup and VARTM, Bhatt, S., Verma, N. M., Kumar, V., Rakesh, P. K., Joshi, D., Agarwal, S., & Kalia, B., Engineering Research Express, 2026 (I.F. - 1.6)
• Advances in additive manufacturing processes and their use for the fabrication of lower limb prosthetic devices, Bhatt, S., Joshi, D., Rakesh, P. K., & Godiyal, A. K., Expert review of medical devices, 20, 1, 17-27, 2023 (I.F. - 2.7)
• Design analysis and fatigue life prediction of an indigenously developed affordable knee prosthesis, Bhatt, S., Godiyal, A., Joshi, D., & Rakesh, P. K., Advances in Engineering Design: Select Proceedings of ICOIED 2020, 3-13, Springer Singapore, 2021
• Performance assessment of fuzzy logic control approach for MR-damper based-transfemoral prosthetic leg, Sharma, R., Gaur, P., Bhatt, S., & Joshi, D., IEEE Transactions on Artificial Intelligence, 3, 1, 53-66, 2021 (I.F. - 2.7)
• Optimal fuzzy logic-based control strategy for lower limb rehabilitation exoskeleton, Sharma, R., Gaur, P., Bhatt, S., & Joshi, D., Applied Soft Computing, 105, 107226, 2021
• Drilling parameter optimisation for three-dimensional prints of acrylonitrile butadiene styrene. Gupta, N. K., Bhatt, S., & Rakesh, P. K. (2024). Engineering Research Express, 6(4), 045404. (I.F. - 1.6)
• Enhancement of the heat transfer through perforated fin by natural convection. Bhatt, S., & Rawat, K. (2020). Applied innovative research, 2, 22-27.

• Development of Biocomposites-Based Prosthesis Foot Using Additive Manufacturing Processes. Rakesh, P. K., Kumar, P., Ram, V. K., & Bhatt, S. (2025). In Additive Manufacturing for Biomedical Implants and Prosthetics (pp. 135-149). CRC Press.
• Drilling Characteristics of Fibre-reinforced Polylactic Acid Composites: A Study on Himalayacalamus falconeri Fibre-based Composites. Pokhriyal, M., Rakesh, P. K., Kumar, R., Bhatt, S., Bahuguna, V., & Sharma, H. (2024). In Forming and Machining of Polymers, Ceramics, and Composites (pp. 124-133). CRC Press.
• The development of silk fiber-, jute fiber-, Grewia optiva fiber-reinforced biopolymer. Rakesh, P. K., Ranakoti, L., Bhatt, S., & Pokhriyal, M. (2023). Polylactic Acid Composites: Sustainable Biocomposites, 18, 303.
• Machinability characteristics of pine needle fiber-reinforced polylactic acid composites. Rakesh, P. K., Bhatt, S., Bahuguna, V., & Pokhriyal, M. (2023). Polylactic Acid Composites: Sustainable Biocomposites, 18, 321.
• Study on mechanical properties of Himalayacalamus falconeri fiber-reinforced polylactic acid composites. Rakesh, P. K., Pokhriyal, M., & Bhatt, S. (2023). Polylactic Acid Composites: Sustainable Biocomposites, 18, 181.
• Dimensional analysis of 3D-printed knuckle joint and bearing pillow block. Rakesh, P. K., Gupta, N. K., Bhatt, S., Rastogi, V., & Singh, I. (2023). Polylactic Acid Composites: Sustainable Biocomposites, 18, 271.