RESEARCH

My research interests lie within the expansive field of Solid Mechanics. Through the integration of analytical modeling, computational simulation, and experimental investigation, my research is dedicated to revealing the multiscale and multiphysics mechanisms inherent in a variety of materials and structures, especially when they are subjected to fatigue loading, fracture failure, and multifield coupled stimulus. These findings further contribute to the development of high efficiency models and methods for behavior prediction and optimization design. Specifically, my research work mainly centers on three subjects: Rapid Fatigue Evaluation, Mechanisms-Based Constitutive Modeling, and Fracture Mechanics of Soft Materials.

At this pivotal juncture in my career, I am resolutely committed to advancing the frontiers of knowledge in Solid Mechanics. I am equally enthusiastic about expanding my research into complementary domains, including metamaterials, biomechanics, additive manufacturing, and soft robotics. Additionally, I am keen to harness the power of machine learning techniques to enhance my investigations. I am eager to engage in interdisciplinary collaboration, seeking to collaborate with researchers from diverse fields such as Physics, Chemistry, Materials Science, Biomedical Engineering, and related disciplines. Furthermore, I will actively explore funding opportunities through esteemed organizations such as the National Science Foundation, the United States Department of Energy, the Office of Naval Research, Sandia National Laboratories, and 3M Corporation.