Name: Dr. Swapnil Patare
Designation: Assistant Professor
Qualification: BE , M.Tech, PhD.

Overview of Profile:

Dr. Swapnil Patare currently serves as an Assistant Professor within the School of Civil Engineering, demonstrating a strong inclination towards both research and innovative teaching. He earned his Ph.D. degree from IIT Bombay, complemented by a Master's degree in Structural Engineering and a Bachelor's degree in Civil Engineering from SPPU Pune. With over a decade of teaching experience and an additional year in the industrial sector, Dr. Patare possesses a wealth of pedagogical expertise.

His research expertise encompasses the intricate domain of structural analysis, focusing on the behavior of slender elements subjected to bending, buckling, and vibration. Dr. Patare also explores the integration of smart materials with structural components to effectively control deflection and vibration. Proficient in computational tools such as Python and LaTeX, he has honed his skills over the course of his academic journey.

With 12 years of academic experience, Dr. Patare has imparted knowledge in subjects including structural analysis, design, and construction management. His commitment to innovation extends to the application of Artificial Intelligence and Data Science in the realms of structural engineering and construction management, highlighting his dedication to pushing the boundaries of the field.

Fore Front Area of Research: Construction, Planning and Management
Email id: swapnil.patare@mitaoe.ac.in
Contact: 020 3025 3500
Experience: Teaching: 13 years



Awards and Achievements


Completed PhD from IIT Bombay.

Certification in Python, LaTex.


Research


MEMBERSHIPS: 1. Life Member Institute of Engineers (ID: M-1732662)

JOURNAL PAPERS (PEER REVIEWED):

  1. Bhirud, Y. L., Sangle, K. K., Vaidya, O. V., & Patare, S. A. (2023). Influence of higher binder content on the splitting tensile strength and modulus of elasticity of self-compacting concrete: An experimental investigation and proposed prediction equation. Construction and Building Materials, 398, 132478.
  2. Patare, S. A., & Bhirud, Y. L. (2022). Effect of displacement control gain on the shape of functionally graded piezoelectric beam using a simple beam theory. Asian Journal of Civil Engineering, 23(6), 887-905.
  3. Bajoria, K. M., & Patare, S. A. (2021). Shape control of hybrid functionally graded plate through smart application of piezoelectric material using simple plate theory. SN Applied Sciences, 3, 1-19.
  4. Patare, S. A., & Bajoria, K. M. (2021). Simple mathematical model for piezoelectric coupled FGM plate subjected to dynamic studies. International Journal of Structural Engineering, 11(3), 245-269.

CONFERENCE PAPERS:

  1. “Deflection control of hybrid piezoelectric functionally graded plate”, International Conference on Composite Materials and Structures, IIT Hyderabad, 2017.
  2. “Free vibration analysis of hybrid piezoelectric functionally graded plate”, 2 nd International Conference on Advances in Concrete, Structural, and Geotechnical Engineering, BITS, Pilani, 2018.
  3. “Shape control of functionally graded plate through coupling of smart piezoelectric material”, International Conference of Rehabilitation And Retrofitting of Structures Mumbai, Maharashtra, June, 2019.
  4. “Role of shear deformation function on the flexural parameters in the functionally graded beam”, International Conference on Emerging Trends in Engineering and Technology, SIEM, Nashik 07-08 July 2021