Prediction of the anisotropic mechanical properties of compacted powders
The multi-particle finite element method (MPFEM) was used to test the anisotropic elastic and plastic properties of compacted powders with cohesive contacts. A representative volume element (RVE) of monodisperse, spherical, deformable particles was used to investigate the powder properties after com...
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| Published in | Powder technology Vol. 345; pp. 589 - 600 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Lausanne
Elsevier B.V
01.03.2019
Elsevier BV |
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| Online Access | Get full text |
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| Abstract | The multi-particle finite element method (MPFEM) was used to test the anisotropic elastic and plastic properties of compacted powders with cohesive contacts. A representative volume element (RVE) of monodisperse, spherical, deformable particles was used to investigate the powder properties after compaction. Efficient periodic boundary conditions and an RVE of only 50 particles allowed extensive parameter studies. During parameter studies the relative density after compaction, the contact cohesion strength and the strain path during compaction were varied. The strain paths were characterized by the ratios of the applied principal strains during compaction that results in different Dirichlet boundary conditions on the RVE. Seven different strain paths were considered including the practically important isostatic and closed die compaction.
The outcome of the parameter study were the elastic constants of an orthotropic material model, the uniaxial yield strength for tension and compression, and the yield surfaces for general load cases. No anisotropy was observed for isostatic compaction but increasing anisotropy was observed with increasing ratio of the principal strains during compaction. Regression curves were generated to describe the mechanical properties as a function of the model parameters. In this way, continuous functions were obtained which were capable to describe the distribution of the mechanical material properties in a FEM model of a heterogeneous compacted powder part.
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•Representative volume element of deformable particles•Variation of the strain path during compaction simulation•Anisotropic elastic and plastic material properties of compacted powder•Regression of mechanical properties as function of model parameters |
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| AbstractList | The multi-particle finite element method (MPFEM) was used to test the anisotropic elastic and plastic properties of compacted powders with cohesive contacts. A representative volume element (RVE) of monodisperse, spherical, deformable particles was used to investigate the powder properties after compaction. Efficient periodic boundary conditions and an RVE of only 50 particles allowed extensive parameter studies. During parameter studies the relative density after compaction, the contact cohesion strength and the strain path during compaction were varied. The strain paths were characterized by the ratios of the applied principal strains during compaction that results in different Dirichlet boundary conditions on the RVE. Seven different strain paths were considered including the practically important isostatic and closed die compaction.
The outcome of the parameter study were the elastic constants of an orthotropic material model, the uniaxial yield strength for tension and compression, and the yield surfaces for general load cases. No anisotropy was observed for isostatic compaction but increasing anisotropy was observed with increasing ratio of the principal strains during compaction. Regression curves were generated to describe the mechanical properties as a function of the model parameters. In this way, continuous functions were obtained which were capable to describe the distribution of the mechanical material properties in a FEM model of a heterogeneous compacted powder part.
[Display omitted]
•Representative volume element of deformable particles•Variation of the strain path during compaction simulation•Anisotropic elastic and plastic material properties of compacted powder•Regression of mechanical properties as function of model parameters The multi-particle finite element method (MPFEM) was used to test the anisotropic elastic and plastic properties of compacted powders with cohesive contacts. A representative volume element (RVE) of monodisperse, spherical, deformable particles was used to investigate the powder properties after compaction. Efficient periodic boundary conditions and an RVE of only 50 particles allowed extensive parameter studies. During parameter studies the relative density after compaction, the contact cohesion strength and the strain path during compaction were varied. The strain paths were characterized by the ratios of the applied principal strains during compaction that results in different Dirichlet boundary conditions on the RVE. Seven different strain paths were considered including the practically important isostatic and closed die compaction. The outcome of the parameter study were the elastic constants of an orthotropic material model, the uniaxial yield strength for tension and compression, and the yield surfaces for general load cases. No anisotropy was observed for isostatic compaction but increasing anisotropy was observed with increasing ratio of the principal strains during compaction. Regression curves were generated to describe the mechanical properties as a function of the model parameters. In this way, continuous functions were obtained which were capable to describe the distribution of the mechanical material properties in a FEM model of a heterogeneous compacted powder part. |
| Author | Loidolt, Peter Ulz, Manfred H. Khinast, Johannes |
| Author_xml | – sequence: 1 givenname: Peter surname: Loidolt fullname: Loidolt, Peter organization: Institute of Process and Particle Engineering, Graz University of Technology, Graz 8010, , Austria – sequence: 2 givenname: Manfred H. surname: Ulz fullname: Ulz, Manfred H. email: manfred.ulz@tugraz.at organization: Institute of Strength of Materials, Graz University of Technology, Graz 8010, Austria – sequence: 3 givenname: Johannes surname: Khinast fullname: Khinast, Johannes email: khinast@tugraz.at organization: Institute of Process and Particle Engineering, Graz University of Technology, Graz 8010, , Austria |
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| CitedBy_id | crossref_primary_10_1016_j_powtec_2022_117288 crossref_primary_10_1016_j_ijpharm_2019_118985 crossref_primary_10_3390_met13071282 crossref_primary_10_3390_met13101710 crossref_primary_10_3390_ma15207145 crossref_primary_10_1016_j_matpr_2022_06_415 crossref_primary_10_1016_j_ijsolstr_2024_112826 crossref_primary_10_1016_j_powtec_2020_12_072 crossref_primary_10_1016_j_powtec_2023_118871 crossref_primary_10_1016_j_ijpharm_2019_06_032 crossref_primary_10_1007_s10035_019_0953_z |
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| Keywords | Elasticity Yield surface Powder compaction Multi-particle finite element method Cohesive particle contact Anisotropy |
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| Snippet | The multi-particle finite element method (MPFEM) was used to test the anisotropic elastic and plastic properties of compacted powders with cohesive contacts. A... |
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| SubjectTerms | Anisotropy Boundary conditions Cohesive particle contact Compaction Compression Compressive strength Continuity (mathematics) Deformation Dirichlet problem Elastic anisotropy Elastic properties Elasticity Finite element method Formability Material properties Mechanical properties Multi-particle finite element method Parameters Plastic properties Plasticity Powder Powder compaction Yield surface |
| Title | Prediction of the anisotropic mechanical properties of compacted powders |
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