Md Dayal Engineering Mechanics

[Jeremias Resendez]

I'm delighted to receive this recognition of our research into the behavior of electromechanical and electrochemical materials at the nanoscale," said Dayal, an associate professor in the mechanics group of the Department of Civil and Environmental Engineering at CMU.

Dayal's research is on materials that could have major applications in large-scale energy harvesting. Intermittent power sources, such as solar power, may benefit from being able to store excess energy in large batteries where the sun shines in the daytime, and then use the stored energy at night when it is in demand. Research in this field is aimed at creating smaller batteries with higher energy density and faster recharge times. His research is funded by the Army Research Office (ARO), the Air Force Office of Scientific Research (AFOSR) and the National Science Foundation (NSF).

"This is great recognition for an innovative researcher who is making important contributions to modeling of materials critical to renewable energy systems and other technologies," said David A. Dzombak, head of CMU's Department of Civil and Environmental Engineering and the Walter J. Blenko, Sr. University Professor.

The EMI Leonardo Da Vinci Award, established in 2011, recognizes outstanding young investigators early in their careers for promising developments in the field of engineering mechanics and mechanical sciences with specific relevance to civil engineering.

Dayal's pioneering work has garnered many accolades. In 2012, he was honored with the Army Research Office Young Investigator Award, the Air Force Office of Scientific Research Young Investigator Prize, the National Science Foundation Career Award and the Eshelby Mechanics Award for Young Faculty.

Dayal received his Ph.D. in mechanical engineering with a minor in materials science in 2007 at the California Institute of Technology. He did postdoctoral work at the University of Minnesota in Aerospace Engineering and Mechanics.

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Kaushik Dayal, pictured above, has won the prestigious Leonardo Da Vinci Award from the American Society of Civil Engineers Engineering Mechanics Institute for groundbreaking research on the interactions between materials and electromagnetism. His research can be applied to new technologies for energy storage and generation.

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Dr. Shivdayal Patel completed his B. E., in Mechanical Engineering at the Shri Govindram Seksaria Institute of Technology and Science, Indore (It established in 1952 (MP Govt.)) in India in 2008, completed his M Tech in Mechanical Engineering at Maulana Azad National Institute of Technology (MANIT/MACT), Bhopal in 2010 and he completed his PhD in Applied Mechanics Department at Indian Institute of Technology (IIT), Delhi in 2016. He joined Institute Superior Technico Lisbon (Portugal) for Probabilistic Design of Offshore structures in Portugal as a Postdoctoral Scientist in Nov 2016 to 12 May 2017. He joined the Department of Mechanical Engineering at the Indian Institute of Information Technology Design and Manufacturing-Jabalpur (IIITDM) in 16 May 2017 where he is working as an Assistant Professor.

Patel S, Ahmad S., Mahajan P. (2014) Probabilistic Analysis of Composite Armor Under Ballistic Impact, International conference on Industrial, Mechanical and Production engineering (ICIMPACT), MANIT Bhopal, India.

Patel S., Ahmad S., Mahajan P. (2014) Stochastic Finite Element Analysis of Composite Plate due to Low Velocity Impact, 5th International Congress on Computational Mechanics and Simulation (ICCMS), CSIR-Structural Engineering Research Centre Chennai, Ind

Patel S., Ahmad S., Mahajan P. (2012) Probabilistic Analysis of Composite Plate under Ballistic Impact. Proc. of the International Conference on Mechanics of Nano, Micro and Macro Composite Structures, Politecnico di Torino, Italy.

Patel S., Ahmad S., Mahajan P. (2012) Reliability Analysis of Composite Plate under Low Velocity Impact using Gaussian Response Surface Method, Proceeding of the 4th International Congress on Computational Mechanics and Simulation (ICCMS), IIT Hyderabad

Patel S., Mahajan P, Ahmad S. (2011) Probabilistic Analysis of Anisotropic Composite Plate Damage Due to Low Velocity Impact, Indian Society for Advancement of Materials and Processing Engineering. Proceeding of the 10th National Conference on Composite

Patel S. Gupta V.K. (2019) Reliability Analysis of Composite Components under Low Velocity Impact, Proceedings of 4th International Conference on Reliability, Safety and Hazard (ICRESH-2019) Indian Institute of Technology Madras January 10-13.

Verma J.G. Kankar P. K. Patel S. (2019) Mesh stiffness variation due to the effect of back-side contact of gears, Proceedings of 4th International Conference on Reliability, Safety and Hazard (ICRESH-2019) Indian Institute of Technology Madras January 10-13.

Kumar R., Patel S. (2019) Failure Analysis on Octagonal Honeycomb Sandwich Panel under Air Blast Loading, Proceedings of International Mechanical Engineering Congress 2019: Materials Science, NIT Tiruchirappalli, India, 29th Nov-1st Dec 2019.

Bheekam Gaur, Murlidhar Patel, Shivdayal Patel (2022) Strain Rate Effect Analysis of Hybrid Composites under The High-Velocity Impact, Proce. of 2nd International Conference on Sustainable materials, Manufacturing and Renewable Technologies (i-SMaRT 2022), King Mongkut's University of Technology North Bangkok (KMUTNB), Bangkok Campus, Thailand

Abhinath Shukla and Shivdayal Patel (2022) Fatigue Failure Analysis of Spur Gear under Moving Load, Proce. of 2nd International Conference on Sustainable materials, Manufacturing and Renewable Technologies (i-SMaRT 2022), King Mongkut's University of Technology North Bangkok (KMUTNB), Bangkok Campus, Thailand

Raghav M.S., Singh A, Patel S "Crack Propagation Analysis of Spur Gear " Proc. of International Conference on Futuristic Advancements in Materials, Manufacturing and Thermal Sciences, ICFAMMT-2022, Institute of Infrastructure Technology Research and Management -Gujarat 20-21 Jan 2022.

Patel, Murlidhar, Rashmi Sawant, and Shivdayal Patel. "Functionally Graded Materials for Defense Applications - A Critical Review." Novel Applications of Functionally Graded Materials, CRC Press (2024). (Scopus) (Under Review)

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