Material Models for Finite Element Analysis of Soft Tissues

The application of Finite Element Analysis (FEA) to soft tissues is thoroughly explored in this chapter, with an emphasis on material models, validation, constraints, error sources, and potential future applications. To establish the framework for understanding soft tissues' complicated response under mechanical loading, the chapter opens with an introduction to their basic properties. Choosing the right material models to effectively depict the mechanical responses of soft tissue is a crucial component of FEA. We examine various material models and their constitutive equations in this chapter, outlining each one's benefits and drawbacks. Researchers and biomechanics enthusiasts can choose the best material models for their investigations using the information they obtain from this thorough analysis. This chapter identifies frequent sources of errors and suggests potential fixes to help the efficient application of FEA in soft tissue biomechanics. Researchers can enhance their simulations and get more reliable results by being aware of these sources. In conclusion, this chapter provides an important resource for scientists looking to use FEA to examine the biomechanics of soft tissues. By addressing the future scope, we encourage greater development in this area and promote more precise and trustworthy FEA-based studies of soft tissues. Researchers and professionals with an interest in biomechanics and finite element analysis can read this chapter. It focuses on people who want to comprehend and use FEA in soft tissue investigations, offering crucial advice for picking the right material models, validating simulations, and correctly interpreting results.