CAE-Companion-2018-2019
automotive CAE Companion
Car Bodies ► ► Crashworthy Car Body Design for new and classic vehicle concepts p. 11 ► ► Car Body Design for Analysis Engineers p. 12 ► ► Lightweight Design Strategies for Car Bodies p. 13 ► ► Design for Durability – Lightweight Car Bodies and Fatigue p. 30 ► ► NVH - Background, Practice and SimulationMethodology p. 32 ► ► Design and Simulation of Vehicle Vibration p. 34 ► ► Robust Design and Stochastics for Car Body Development p. 45 ► ► Lightweight Design Summit p. 14 ► ► Structural Optimization p. 37
► ► Modeling of Joints in Crash Simulation p. 58 ► ► Introduction to Passive Safety of Vehicles p. 96 ► ► Crash Safety of Hybrid- and Electric Vehicles p. 106
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NVH - Noise Vibration Harshness ► ► NVH - Background, Practice and Simulation Methodology p. 32 ► ► Design and Simulation of Vehicle Vibration p. 34 ► ► automotive CAE Grand Challenge p. 10 ► ► Car Body Design for Analysis Engineers p. 12 ► ► Robust Design and Stochastics for Car Body Development p. 45
CAEMethods & Tools ► ► CAE Intensive Training p. 16 ► ► Introduction to Fatigue Analysis p. 24 ► ► NVH - Background, Practice and SimulationMethodology p. 32 ► ► Design and Simulation of Vehicle Vibration p. 34 ► ► Structural Optimization in Automotive Design p. 37 ► ► Robust Design and Stochastics for Car Body Development p. 45 ► ► Improving Efficiency and Reducing Risk in CAE driven product development p. 46 ► ► Introduction to the Python Programming Language p. 48 ► ► Possibilities and Limitations of Virtual-based Development using the Example of Interior Components p. 50 ► ► Modeling of Joints in Crash Simulation p. 58 ► ► automotive CAE Grand Challenge p. 10
√ CAE Basics
► ► CAE Intensive Training p. 16 ► ► Possibilities and Limitations of Virtual-based Development using the Example of Interior Components p. 50
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