Exploring high strain rate deformation of materials
Authors :- S Kumari, DA Ramacharyulu, S Sood, K Abhishek, at el.
Publication :- AIP Conference Proc. 3263, 160036 (2025).
The understanding of high rates of strain deformation in materials has major importance. This paper offers a complete survey of the work done to highlight the dynamic behaviour of the materials at extreme strain rates. The study uses both numerical and experimental analytical approaches to clarify the many elements controlling the behaviour of materials under quick loading conditions. This study aims to shed light on the basic components of deformation at high strain rates: namely, the sensitivity to strain rate, dynamic yield strength of the material, and energy absorption capacity. The outcome of this work significantly helps to enhance material design and performance under high strain rate loading. This then helps more robust building and protective systems to evolve. This work aims primarily to investigate the basic aspects of deformation at high strain rates. This work covers the dynamic yield strength, the strain rate dependency of materials, and the energy absorption capacity. The results of this research significantly help to progress strong buildings and defensive systems. By better understanding high strain rate deformation, engineers and material scientists may get enhanced impact resistance, increased effectiveness of protective devices, and optimization of buildings under dynamic loads.