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Forejt, Milan
Brno University of Technology
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (18/18 displayed)
- 2024The effects of strain rate and anisotropy on the formability and mechanical behaviour of aluminium alloy 2024-T3citations
- 2024The effect of strain rate and anisotropy on the formability and mechanical behaviour of aluminium alloy 2024-T3citations
- 2024The effect of strain rate and anisotropy on the formability and mechanical behaviour of aluminium alloy 2024-T3citations
- 2021Mechanical properties of aluminium alloys at high strain ratecitations
- 2013Hopkinson Tensile Tests of Flat Specimens.
- 2013Influence of strain rate on deformation mechanisms of an AZ31 magnesium alloycitations
- 2013CAPACITANCE DETECTORS USED FOR SPLIT HOPKINSON PRESSURE BAR TEST (SHPBT) AND THEIR COMPARISON WITH NUMERIC SIMULATION SHPBT
- 2012Determination of Johnson-Cook equation parameters
- 2011Hopkinson tensile tests of flat specimen
- 2011Tensile tests of flat bars at high strain rate
- 2010Experimental Studies on the Relation Between Microstructure and Mechanical Properties
- 2008Dynamical behaviour of aluminium alloys under repeated loading
- 2008Study of dynamic behaviour of Ti-6Al-4V titanum alloy
- 2006Hopkinson pressure bar method applied to plastic materials.
- 2005Creating dynamic models of formed materials
- 2001Deformation of steel for applications during taylor test in dependence on impact velocity
- 2000Constitutive equations for the behaviour of BCC steels at high strain rates
- 2000High strain rate compression loading of BCC steels
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document
Creating dynamic models of formed materials
Abstract
Mathematical representation of the dependence of strain stress on true strain, strain rate and temperature describes quite well the behaviour of metallic materials. Together with the defined chemical composition, heat treatment and boundary conditions the parameters of constitutive equations form representative models of materials. They can be obtained either via the Taylor anvil test (TAT) or via the split Hopkinson pressure bar (SHPB) test. The analysis of the shape of the specimen after the TAT is performed via image analysis using the LUCIA program.