Optimal design and non–linear computation of mechanical behavior of sphere reinforced composites
This paper presents an efficient method to automatically generate and mesh random non–periodic three dimensional (3D) microstructures for three classes of complex heterogeneous media having a wide range of important engineering applications, porous media, composites with interfacial debonding and co...
Ausführliche Beschreibung
Gespeichert in:
| Autor*in: |
Benhizia, A. [verfasserIn] |
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| Format: |
E-Artikel |
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| Sprache: |
Englisch |
| Erschienen: |
2017transfer abstract |
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| Schlagwörter: |
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| Umfang: |
11 |
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| Übergeordnetes Werk: |
Enthalten in: O46 – 1548 Long term follow-up of clinical and neurographical abnormalities in eight Croatian patients with triple A syndrome - Barisic, N ELSEVIER, 2013, an international journal, Amsterdam [u.a.] |
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| Übergeordnetes Werk: |
volume:126 ; year:2017 ; day:1 ; month:10 ; pages:38-48 ; extent:11 |
| Links: |
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| DOI / URN: |
10.1016/j.compositesb.2017.06.002 |
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ELV025578065 |
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| 520 | |a This paper presents an efficient method to automatically generate and mesh random non–periodic three dimensional (3D) microstructures for three classes of complex heterogeneous media having a wide range of important engineering applications, porous media, composites with interfacial debonding and composites with high density particles. The resulting 3D microstructure is intentionally constructed to be easily and efficiently implemented in standard finite element computational codes. Several examples of 3D representative volume elements are shown. The performance of the proposal in finite element analysis is demonstrated in numerical implementation to predict the effective non–linear elastic–plastic response of two–phase particulate composites reinforced with spherical particles. The main result achieved is the estimation of the effective plastic tangent modulus by a simple linear regression equation for different volume fractions. | ||
| 520 | |a This paper presents an efficient method to automatically generate and mesh random non–periodic three dimensional (3D) microstructures for three classes of complex heterogeneous media having a wide range of important engineering applications, porous media, composites with interfacial debonding and composites with high density particles. The resulting 3D microstructure is intentionally constructed to be easily and efficiently implemented in standard finite element computational codes. Several examples of 3D representative volume elements are shown. The performance of the proposal in finite element analysis is demonstrated in numerical implementation to predict the effective non–linear elastic–plastic response of two–phase particulate composites reinforced with spherical particles. The main result achieved is the estimation of the effective plastic tangent modulus by a simple linear regression equation for different volume fractions. | ||
| 650 | 7 | |a Composites |2 Elsevier | |
| 650 | 7 | |a Homogenization |2 Elsevier | |
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| 650 | 7 | |a Heterogeneous materials |2 Elsevier | |
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| 700 | 1 | |a Kanit, T. |4 oth | |
| 700 | 1 | |a Imad, A. |4 oth | |
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10.1016/j.compositesb.2017.06.002 doi GBVA2017018000026.pica (DE-627)ELV025578065 (ELSEVIER)S1359-8368(16)33044-X DE-627 ger DE-627 rakwb eng 660 660 DE-600 610 VZ 580 540 VZ BIODIV DE-30 fid 42.00 bkl Benhizia, A. verfasserin aut Optimal design and non–linear computation of mechanical behavior of sphere reinforced composites 2017transfer abstract 11 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier This paper presents an efficient method to automatically generate and mesh random non–periodic three dimensional (3D) microstructures for three classes of complex heterogeneous media having a wide range of important engineering applications, porous media, composites with interfacial debonding and composites with high density particles. The resulting 3D microstructure is intentionally constructed to be easily and efficiently implemented in standard finite element computational codes. Several examples of 3D representative volume elements are shown. The performance of the proposal in finite element analysis is demonstrated in numerical implementation to predict the effective non–linear elastic–plastic response of two–phase particulate composites reinforced with spherical particles. The main result achieved is the estimation of the effective plastic tangent modulus by a simple linear regression equation for different volume fractions. This paper presents an efficient method to automatically generate and mesh random non–periodic three dimensional (3D) microstructures for three classes of complex heterogeneous media having a wide range of important engineering applications, porous media, composites with interfacial debonding and composites with high density particles. The resulting 3D microstructure is intentionally constructed to be easily and efficiently implemented in standard finite element computational codes. Several examples of 3D representative volume elements are shown. The performance of the proposal in finite element analysis is demonstrated in numerical implementation to predict the effective non–linear elastic–plastic response of two–phase particulate composites reinforced with spherical particles. The main result achieved is the estimation of the effective plastic tangent modulus by a simple linear regression equation for different volume fractions. Composites Elsevier Homogenization Elsevier Spherical particles Elsevier Heterogeneous materials Elsevier Elastic–plastic behavior Elsevier Outtas, T. oth Kanit, T. oth Imad, A. oth Enthalten in Elsevier Barisic, N ELSEVIER O46 – 1548 Long term follow-up of clinical and neurographical abnormalities in eight Croatian patients with triple A syndrome 2013 an international journal Amsterdam [u.a.] (DE-627)ELV011782439 volume:126 year:2017 day:1 month:10 pages:38-48 extent:11 https://doi.org/10.1016/j.compositesb.2017.06.002 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U FID-BIODIV SSG-OLC-PHA 42.00 Biologie: Allgemeines VZ AR 126 2017 1 1001 38-48 11 045F 660 |
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10.1016/j.compositesb.2017.06.002 doi GBVA2017018000026.pica (DE-627)ELV025578065 (ELSEVIER)S1359-8368(16)33044-X DE-627 ger DE-627 rakwb eng 660 660 DE-600 610 VZ 580 540 VZ BIODIV DE-30 fid 42.00 bkl Benhizia, A. verfasserin aut Optimal design and non–linear computation of mechanical behavior of sphere reinforced composites 2017transfer abstract 11 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier This paper presents an efficient method to automatically generate and mesh random non–periodic three dimensional (3D) microstructures for three classes of complex heterogeneous media having a wide range of important engineering applications, porous media, composites with interfacial debonding and composites with high density particles. The resulting 3D microstructure is intentionally constructed to be easily and efficiently implemented in standard finite element computational codes. Several examples of 3D representative volume elements are shown. The performance of the proposal in finite element analysis is demonstrated in numerical implementation to predict the effective non–linear elastic–plastic response of two–phase particulate composites reinforced with spherical particles. The main result achieved is the estimation of the effective plastic tangent modulus by a simple linear regression equation for different volume fractions. This paper presents an efficient method to automatically generate and mesh random non–periodic three dimensional (3D) microstructures for three classes of complex heterogeneous media having a wide range of important engineering applications, porous media, composites with interfacial debonding and composites with high density particles. The resulting 3D microstructure is intentionally constructed to be easily and efficiently implemented in standard finite element computational codes. Several examples of 3D representative volume elements are shown. The performance of the proposal in finite element analysis is demonstrated in numerical implementation to predict the effective non–linear elastic–plastic response of two–phase particulate composites reinforced with spherical particles. The main result achieved is the estimation of the effective plastic tangent modulus by a simple linear regression equation for different volume fractions. Composites Elsevier Homogenization Elsevier Spherical particles Elsevier Heterogeneous materials Elsevier Elastic–plastic behavior Elsevier Outtas, T. oth Kanit, T. oth Imad, A. oth Enthalten in Elsevier Barisic, N ELSEVIER O46 – 1548 Long term follow-up of clinical and neurographical abnormalities in eight Croatian patients with triple A syndrome 2013 an international journal Amsterdam [u.a.] (DE-627)ELV011782439 volume:126 year:2017 day:1 month:10 pages:38-48 extent:11 https://doi.org/10.1016/j.compositesb.2017.06.002 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U FID-BIODIV SSG-OLC-PHA 42.00 Biologie: Allgemeines VZ AR 126 2017 1 1001 38-48 11 045F 660 |
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10.1016/j.compositesb.2017.06.002 doi GBVA2017018000026.pica (DE-627)ELV025578065 (ELSEVIER)S1359-8368(16)33044-X DE-627 ger DE-627 rakwb eng 660 660 DE-600 610 VZ 580 540 VZ BIODIV DE-30 fid 42.00 bkl Benhizia, A. verfasserin aut Optimal design and non–linear computation of mechanical behavior of sphere reinforced composites 2017transfer abstract 11 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier This paper presents an efficient method to automatically generate and mesh random non–periodic three dimensional (3D) microstructures for three classes of complex heterogeneous media having a wide range of important engineering applications, porous media, composites with interfacial debonding and composites with high density particles. The resulting 3D microstructure is intentionally constructed to be easily and efficiently implemented in standard finite element computational codes. Several examples of 3D representative volume elements are shown. The performance of the proposal in finite element analysis is demonstrated in numerical implementation to predict the effective non–linear elastic–plastic response of two–phase particulate composites reinforced with spherical particles. The main result achieved is the estimation of the effective plastic tangent modulus by a simple linear regression equation for different volume fractions. This paper presents an efficient method to automatically generate and mesh random non–periodic three dimensional (3D) microstructures for three classes of complex heterogeneous media having a wide range of important engineering applications, porous media, composites with interfacial debonding and composites with high density particles. The resulting 3D microstructure is intentionally constructed to be easily and efficiently implemented in standard finite element computational codes. Several examples of 3D representative volume elements are shown. The performance of the proposal in finite element analysis is demonstrated in numerical implementation to predict the effective non–linear elastic–plastic response of two–phase particulate composites reinforced with spherical particles. The main result achieved is the estimation of the effective plastic tangent modulus by a simple linear regression equation for different volume fractions. Composites Elsevier Homogenization Elsevier Spherical particles Elsevier Heterogeneous materials Elsevier Elastic–plastic behavior Elsevier Outtas, T. oth Kanit, T. oth Imad, A. oth Enthalten in Elsevier Barisic, N ELSEVIER O46 – 1548 Long term follow-up of clinical and neurographical abnormalities in eight Croatian patients with triple A syndrome 2013 an international journal Amsterdam [u.a.] (DE-627)ELV011782439 volume:126 year:2017 day:1 month:10 pages:38-48 extent:11 https://doi.org/10.1016/j.compositesb.2017.06.002 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U FID-BIODIV SSG-OLC-PHA 42.00 Biologie: Allgemeines VZ AR 126 2017 1 1001 38-48 11 045F 660 |
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10.1016/j.compositesb.2017.06.002 doi GBVA2017018000026.pica (DE-627)ELV025578065 (ELSEVIER)S1359-8368(16)33044-X DE-627 ger DE-627 rakwb eng 660 660 DE-600 610 VZ 580 540 VZ BIODIV DE-30 fid 42.00 bkl Benhizia, A. verfasserin aut Optimal design and non–linear computation of mechanical behavior of sphere reinforced composites 2017transfer abstract 11 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier This paper presents an efficient method to automatically generate and mesh random non–periodic three dimensional (3D) microstructures for three classes of complex heterogeneous media having a wide range of important engineering applications, porous media, composites with interfacial debonding and composites with high density particles. The resulting 3D microstructure is intentionally constructed to be easily and efficiently implemented in standard finite element computational codes. Several examples of 3D representative volume elements are shown. The performance of the proposal in finite element analysis is demonstrated in numerical implementation to predict the effective non–linear elastic–plastic response of two–phase particulate composites reinforced with spherical particles. The main result achieved is the estimation of the effective plastic tangent modulus by a simple linear regression equation for different volume fractions. This paper presents an efficient method to automatically generate and mesh random non–periodic three dimensional (3D) microstructures for three classes of complex heterogeneous media having a wide range of important engineering applications, porous media, composites with interfacial debonding and composites with high density particles. The resulting 3D microstructure is intentionally constructed to be easily and efficiently implemented in standard finite element computational codes. Several examples of 3D representative volume elements are shown. The performance of the proposal in finite element analysis is demonstrated in numerical implementation to predict the effective non–linear elastic–plastic response of two–phase particulate composites reinforced with spherical particles. The main result achieved is the estimation of the effective plastic tangent modulus by a simple linear regression equation for different volume fractions. Composites Elsevier Homogenization Elsevier Spherical particles Elsevier Heterogeneous materials Elsevier Elastic–plastic behavior Elsevier Outtas, T. oth Kanit, T. oth Imad, A. oth Enthalten in Elsevier Barisic, N ELSEVIER O46 – 1548 Long term follow-up of clinical and neurographical abnormalities in eight Croatian patients with triple A syndrome 2013 an international journal Amsterdam [u.a.] (DE-627)ELV011782439 volume:126 year:2017 day:1 month:10 pages:38-48 extent:11 https://doi.org/10.1016/j.compositesb.2017.06.002 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U FID-BIODIV SSG-OLC-PHA 42.00 Biologie: Allgemeines VZ AR 126 2017 1 1001 38-48 11 045F 660 |
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10.1016/j.compositesb.2017.06.002 doi GBVA2017018000026.pica (DE-627)ELV025578065 (ELSEVIER)S1359-8368(16)33044-X DE-627 ger DE-627 rakwb eng 660 660 DE-600 610 VZ 580 540 VZ BIODIV DE-30 fid 42.00 bkl Benhizia, A. verfasserin aut Optimal design and non–linear computation of mechanical behavior of sphere reinforced composites 2017transfer abstract 11 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier This paper presents an efficient method to automatically generate and mesh random non–periodic three dimensional (3D) microstructures for three classes of complex heterogeneous media having a wide range of important engineering applications, porous media, composites with interfacial debonding and composites with high density particles. The resulting 3D microstructure is intentionally constructed to be easily and efficiently implemented in standard finite element computational codes. Several examples of 3D representative volume elements are shown. The performance of the proposal in finite element analysis is demonstrated in numerical implementation to predict the effective non–linear elastic–plastic response of two–phase particulate composites reinforced with spherical particles. The main result achieved is the estimation of the effective plastic tangent modulus by a simple linear regression equation for different volume fractions. This paper presents an efficient method to automatically generate and mesh random non–periodic three dimensional (3D) microstructures for three classes of complex heterogeneous media having a wide range of important engineering applications, porous media, composites with interfacial debonding and composites with high density particles. The resulting 3D microstructure is intentionally constructed to be easily and efficiently implemented in standard finite element computational codes. Several examples of 3D representative volume elements are shown. The performance of the proposal in finite element analysis is demonstrated in numerical implementation to predict the effective non–linear elastic–plastic response of two–phase particulate composites reinforced with spherical particles. The main result achieved is the estimation of the effective plastic tangent modulus by a simple linear regression equation for different volume fractions. Composites Elsevier Homogenization Elsevier Spherical particles Elsevier Heterogeneous materials Elsevier Elastic–plastic behavior Elsevier Outtas, T. oth Kanit, T. oth Imad, A. oth Enthalten in Elsevier Barisic, N ELSEVIER O46 – 1548 Long term follow-up of clinical and neurographical abnormalities in eight Croatian patients with triple A syndrome 2013 an international journal Amsterdam [u.a.] (DE-627)ELV011782439 volume:126 year:2017 day:1 month:10 pages:38-48 extent:11 https://doi.org/10.1016/j.compositesb.2017.06.002 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U FID-BIODIV SSG-OLC-PHA 42.00 Biologie: Allgemeines VZ AR 126 2017 1 1001 38-48 11 045F 660 |
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Enthalten in O46 – 1548 Long term follow-up of clinical and neurographical abnormalities in eight Croatian patients with triple A syndrome Amsterdam [u.a.] volume:126 year:2017 day:1 month:10 pages:38-48 extent:11 |
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O46 – 1548 Long term follow-up of clinical and neurographical abnormalities in eight Croatian patients with triple A syndrome |
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660 660 DE-600 610 VZ 580 540 VZ BIODIV DE-30 fid 42.00 bkl Optimal design and non–linear computation of mechanical behavior of sphere reinforced composites Composites Elsevier Homogenization Elsevier Spherical particles Elsevier Heterogeneous materials Elsevier Elastic–plastic behavior Elsevier |
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O46 – 1548 Long term follow-up of clinical and neurographical abnormalities in eight Croatian patients with triple A syndrome |
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ELV011782439 |
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660 - Chemical engineering 610 - Medicine & health 580 - Plants (Botany) 540 - Chemistry |
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O46 – 1548 Long term follow-up of clinical and neurographical abnormalities in eight Croatian patients with triple A syndrome |
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Optimal design and non–linear computation of mechanical behavior of sphere reinforced composites |
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(DE-627)ELV025578065 (ELSEVIER)S1359-8368(16)33044-X |
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Optimal design and non–linear computation of mechanical behavior of sphere reinforced composites |
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Benhizia, A. |
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O46 – 1548 Long term follow-up of clinical and neurographical abnormalities in eight Croatian patients with triple A syndrome |
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O46 – 1548 Long term follow-up of clinical and neurographical abnormalities in eight Croatian patients with triple A syndrome |
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Benhizia, A. |
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Benhizia, A. |
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10.1016/j.compositesb.2017.06.002 |
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660 610 580 540 |
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optimal design and non–linear computation of mechanical behavior of sphere reinforced composites |
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Optimal design and non–linear computation of mechanical behavior of sphere reinforced composites |
| abstract |
This paper presents an efficient method to automatically generate and mesh random non–periodic three dimensional (3D) microstructures for three classes of complex heterogeneous media having a wide range of important engineering applications, porous media, composites with interfacial debonding and composites with high density particles. The resulting 3D microstructure is intentionally constructed to be easily and efficiently implemented in standard finite element computational codes. Several examples of 3D representative volume elements are shown. The performance of the proposal in finite element analysis is demonstrated in numerical implementation to predict the effective non–linear elastic–plastic response of two–phase particulate composites reinforced with spherical particles. The main result achieved is the estimation of the effective plastic tangent modulus by a simple linear regression equation for different volume fractions. |
| abstractGer |
This paper presents an efficient method to automatically generate and mesh random non–periodic three dimensional (3D) microstructures for three classes of complex heterogeneous media having a wide range of important engineering applications, porous media, composites with interfacial debonding and composites with high density particles. The resulting 3D microstructure is intentionally constructed to be easily and efficiently implemented in standard finite element computational codes. Several examples of 3D representative volume elements are shown. The performance of the proposal in finite element analysis is demonstrated in numerical implementation to predict the effective non–linear elastic–plastic response of two–phase particulate composites reinforced with spherical particles. The main result achieved is the estimation of the effective plastic tangent modulus by a simple linear regression equation for different volume fractions. |
| abstract_unstemmed |
This paper presents an efficient method to automatically generate and mesh random non–periodic three dimensional (3D) microstructures for three classes of complex heterogeneous media having a wide range of important engineering applications, porous media, composites with interfacial debonding and composites with high density particles. The resulting 3D microstructure is intentionally constructed to be easily and efficiently implemented in standard finite element computational codes. Several examples of 3D representative volume elements are shown. The performance of the proposal in finite element analysis is demonstrated in numerical implementation to predict the effective non–linear elastic–plastic response of two–phase particulate composites reinforced with spherical particles. The main result achieved is the estimation of the effective plastic tangent modulus by a simple linear regression equation for different volume fractions. |
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Optimal design and non–linear computation of mechanical behavior of sphere reinforced composites |
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https://doi.org/10.1016/j.compositesb.2017.06.002 |
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Outtas, T. Kanit, T. Imad, A. |
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Outtas, T. Kanit, T. Imad, A. |
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