The aim of the course is to extend and deepen knowledge of numerical methods for study and analysis of mechanical properties of plastic and composite parts. The content of the course consists of the following thematic units: 1. Introduction to calculations of plastic and composite parts, basic equations of linear elasticity, Hook's law, strain and strain tensors in relation to plastic and composite parts. 2. Calculation and distribution of anisotropic materials, basic equations of non-linear elasticity, plasticity, viscoelasticity, hyperelasticity. 3. Modeling of laminates, experimental determination of mechanical properties of laminates, uniaxial and multi-axis strain, analytical models, their applicability compared to numerical models. 4. Modeling of filled plastics, model preparation, material models for modeling of mechanical properties. 5. Modeling of foams, types of foams, selected material models, modeling of static and dynamic characteristics. 6. Modeling of particle composites, model preparation, material models suitable for modeling of mechanical properties of particle composites. 7. Modeling of short fiber composites, selected material models suitable for modeling of mechanical properties of particle composites. 8. Long Fiber Composites Modeling, Methods and Procedures, Approaches to Fiber Fiber Modeling, Layer Layers, Effect of Angular Orientation of Fiber Source. 9. Calculations and modeling of thermal conductivity, thermal expansion and heat transfer of plastic and composite parts. 10. Introduction to modeling of plastic and composite parts breakdowns, macromechanical breakdown criteria, crack initiation
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