W. Brocks scite author profile

Hexagonal close-packed (hcp) metals show a deformation behavior, which is quite different from that of materials with cubic crystalline structure. As a consequence, rolled or extruded products of magnesium and its alloys exhibit a strong anisotropy and an unlike yielding in tension and compression. In this work, the microstructural mechanisms of deformation in pure magnesium are modeled by visco-plastic constitutive equations of crystal plasticity. Single crystals and textured polycrystals are analyzed numerically. By means of virtual mechanical tests of representative volume elements mesoscopic yield surfaces are generated. The linking of micro-and mesoscale provides a procedure for the simulation of the yielding and hardening behavior of arbitrarily textured solids with hcp structure such as extruded bars or rolled plates.

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Modeling of crack growth in round bars and plane strain specimens

Besson¹,

Steglich²,

Brocks³

2001

International Journal of Solids and Structures

172

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Verification of the transferability of micromechanical parameters by cell model calculations with visco-plastic materials

Brocks

Sun

Hönig

1995

International Journal of Plasticity

162

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A numerical study on the correlation between the work of separation and the dissipation rate in ductile fracture

Siegmund¹,

Brocks²

2000

Engineering Fracture Mechanics

157

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Simulation of cup–cone fracture using the cohesive model

Scheider

Brocks

2003

Engineering Fracture Mechanics

185

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W. Brocks

Yielding of magnesium: From single crystal to polycrystalline aggregates

Modeling of crack growth in round bars and plane strain specimens

Verification of the transferability of micromechanical parameters by cell model calculations with visco-plastic materials

A numerical study on the correlation between the work of separation and the dissipation rate in ductile fracture

Simulation of cup–cone fracture using the cohesive model

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