Crack Simulation Models in Variable Amplitude Loading
Dive into the fascinating world of crack simulation models and their profound impact on engineering and materials science. Uncover real-world applications, including awe-inspiring case studies, while gaining insights into the crucial components driving innovation in various industries. Discover the intricate science and technology behind these models, and how they are reshaping the future of materials in a way that's not just about strength but also intelligence and sustainability.
Fatigue Life Test on Battery
The world is witnessing a significant shift towards renewable energy and sustainable technology. As a result, the demand for reliable and long-lasting energy storage solutions, such as batteries, is on the rise. One crucial aspect that determines the performance and durability of a battery is its fatigue life. The fatigue life of a battery refers to the number of charge and discharge cycles it can endure before its capacity significantly degrades. To ensure the efficiency and longevity of batteries, manufacturers conduct fatigue life tests, which are instrumental in determining their real-world performance. In this article, we will explore the process of conducting a fatigue life test on batteries and its significance in various applications.
Easy strength and Fatigue Analysis with Simcenter
Strength and fatigue analysis made easier in simulations. Templates for fatigue analysis and their strength-only counterparts are relatively recent additions to Simcenter 3D. As a result, many engineers are unaware of them or the benefits that they can bring.
The strength analysis case provides static and fatigue strength analysis for any finite element set-ups created in Simcenter 3D. It is fully integrated into finite element workflows and fatigue workflows. You can use material data from a material database (inherited from finite element analysis) or directly in the analysis case.