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Johnson Cook Dual Phase Steel
Johnson Cook Dual Phase Steel
Ellipticity loss analysis for tangent moduli deduced from a large strain elastic–plastic self-consistent model
Materials Engineering / Mechanical Engineering / Civil Engineering / Plasticity / Chaos Theory Evolution Equation / Dislocations / Dislocation Density / Johnson Cook Dual Phase Steel / Single Crystal / Microstructures / Constitutive model / Deformation Mechanism / Large Strain / Dislocations / Dislocation Density / Johnson Cook Dual Phase Steel / Single Crystal / Microstructures / Constitutive model / Deformation Mechanism / Large Strain
Ellipticity loss analysis for tangent moduli deduced from a large strain elastic–plastic self-consistent model
Materials Engineering / Mechanical Engineering / Civil Engineering / Plasticity / Chaos Theory Evolution Equation / Dislocations / Dislocation Density / Johnson Cook Dual Phase Steel / Single Crystal / Microstructures / Constitutive model / Deformation Mechanism / Large Strain / Dislocations / Dislocation Density / Johnson Cook Dual Phase Steel / Single Crystal / Microstructures / Constitutive model / Deformation Mechanism / Large Strain
Ellipticity loss analysis for tangent moduli deduced from a large strain elastic–plastic self-consistent model
Materials Engineering / Mechanical Engineering / Civil Engineering / Plasticity / Chaos Theory Evolution Equation / Ductility / Dislocations / Dislocation Density / Johnson Cook Dual Phase Steel / Single Crystal / Microstructures / Constitutive model / Deformation Mechanism / Large Strain / Ductility / Dislocations / Dislocation Density / Johnson Cook Dual Phase Steel / Single Crystal / Microstructures / Constitutive model / Deformation Mechanism / Large Strain
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