Dr. Bin Li joined the Faculty of Mechanical Engineering (Robotic Track) of GTIIT in September 2020, as an associate professor. Before moving to Cornell University to pursue postdoctoral position at Sibley school of Mechanical and Aerospace Engineering, he has completed two years postdoctoral training at Institut Jean Le Rond d’Alembert, Université Pierre et Marie Curie (Paris VI). He received his PhD in Applied Mathematics (Computational Mechanics) under the supervision of Prof. Marino Arroyo from LaCàN–Mathematical and Computational Modeling, Universitat Politècnica de Catalunya-BarcelonaTech in 2016. He works in the broad fields of theoretical and computational solid mechanics.

At GTIIT, his research focuses on mathematical modeling and advanced computational methods to improve the understanding of the mechanics and physics of fracture in solids. He is interested in the fundamental study of damage and fracture of heterogeneous materials, anisotropic materials, and tearing of thin sheet, as well as mechanics of soft materials and mechanics modeling of contractile microtissues. His research have published in top journals of solid and computational mechanics and others, including Journal of the Mechanics and Physics of Solids, International Journal of Solids and Structures, International Journal for Numerical Methods in Engineering, Computational Mechanics, Biophysical Journals, Applied Physics Letters, Nature Communications, etc.

• Surface Mechanics
• Mechanics of Soft Materials 
• Mechanics of Thin Structures 
• Fracture of Heterogeneous Materials 
• Mechanics Modeling of Contractile Microtissues

Li, B., Peco, C., Millán, D., Arias, I. and Arroyo, M. Phase‐field modeling and simulation of fracture in brittle materials with strongly anisotropic surface energy. International Journal for Numerical Methods in Engineering, 102.3-4(2015):711-27.

Li, B., Millán, D., Torres-Sánchez, A., Roman, B. and Arroyo, M. A variational model of fracture for tearing brittle thin sheets. Journal of the Mechanics and Physics of Solids,119(2018):334-348.

Li, B., and Maurini, C. Crack kinking in a variational phase-field model of brittle fracture with strongly anisotropic surface energy. Journal of the Mechanics and Physics of Solids,125(2019):502-522.

Li, B., and Bouklas, N. “A variational phase-field model for brittle fracture in polydisperse elastomer networks. International Journal of Solids and Structures 182(2020): 193-204.

Ang, I., Bouklas, N. and Li, B. Stabilized formulation for phase‐field fracture in nearly incompressible hyperelasticity. International Journal for Numerical Methods in Engineering, 123.19(2022):4655-4673.