Brian Croop and Hubert Lobo. 7th European LS-DYNA Conference. 2009.
April 13, 2009 | by DatapointLabs | views 4557
We seek to lay down a framework to help us understand the different behavioral classes of foams. Following a methodology that we previously applied to plastics, we will then attempt to propose the right LS-DYNA material models that best capture these behaviours. Guidelines for model selection will be presented as well as best practices for characterization. Limitations of existing material models will be discussed.
Brian Croop and Hubert Lobo. 7th European LS-DYNA Conference. 2009.
Foams Automotive Consumer Products Material Supplier Packaging Home Appliances High Speed Testing Nonlinear Material Models Structural Analysis LS-DYNA Abaqus ANSYS MSC.DYTRAN Research Papers
A Novel Technique to Measure Tensile Properties of Plastics at High Strain Rates
A Robust Methodology to Calibrate Crash Material Models for Polymers
Determination and Use of Material Properties for Finite Element Analysis: Book Review
Simulating Plastics in Drop and Crash Tests
High Speed Stress Strain Material Properties as Inputs for the Simulation of Impact Situations