The Experts below are selected from a list of 93 Experts worldwide ranked by ideXlab platform
Ignace Verpoes - One of the best experts on this subject based on the ideXlab platform.
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local damage in a 5 harness satin weave composite under static tension part ii meso fe modelling
Composites Science and Technology, 2010Co-Authors: Subbareddy Daggumati, Joris Degrieck, Wim Van Paepegem, Stepan Vladimirovitch Lomov, Ignace VerpoesAbstract:This study forms the second part of a paper on the local damage analysis in a thermo-plastic 5-harness satin weave composite under uni-axial static tensile load. The experimental observations of Part I are confronted with the meso-FE simulations. Part II describes the following steps regarding the unit cell meso-FE modelling starting from: (1) construction of the unit cell geometrical model; (2) estimation of the homogenized elastic constants of the unit cell using different boundary conditions; (3) evaluation of the local Stress and damage behavior of the unit cell using meso-FE simulations. The aim of the numerical analysis is to investigate the dependency of local Ply Stress and damage profiles on the adjacent layers of the laminate. In order to reflect the constraints posed by the surrounding plies, depending on the Ply placement in the laminate (inside/surface), different unit cell geometrical models with suitable boundary conditions were used for the FE analysis. From the numerical simulations it is observed that: (a) the homogenized elastic constants of the unit cell vary considerably depending on the boundary conditions used for the unit cell FE analysis; (b) intra-yarn Stress and damage profiles are sensitive to the unit cell model as well as the boundary conditions used for the FE analysis.
Subbareddy Daggumati - One of the best experts on this subject based on the ideXlab platform.
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local damage in a 5 harness satin weave composite under static tension part ii meso fe modelling
Composites Science and Technology, 2010Co-Authors: Subbareddy Daggumati, Joris Degrieck, Wim Van Paepegem, Stepan Vladimirovitch Lomov, Ignace VerpoesAbstract:This study forms the second part of a paper on the local damage analysis in a thermo-plastic 5-harness satin weave composite under uni-axial static tensile load. The experimental observations of Part I are confronted with the meso-FE simulations. Part II describes the following steps regarding the unit cell meso-FE modelling starting from: (1) construction of the unit cell geometrical model; (2) estimation of the homogenized elastic constants of the unit cell using different boundary conditions; (3) evaluation of the local Stress and damage behavior of the unit cell using meso-FE simulations. The aim of the numerical analysis is to investigate the dependency of local Ply Stress and damage profiles on the adjacent layers of the laminate. In order to reflect the constraints posed by the surrounding plies, depending on the Ply placement in the laminate (inside/surface), different unit cell geometrical models with suitable boundary conditions were used for the FE analysis. From the numerical simulations it is observed that: (a) the homogenized elastic constants of the unit cell vary considerably depending on the boundary conditions used for the unit cell FE analysis; (b) intra-yarn Stress and damage profiles are sensitive to the unit cell model as well as the boundary conditions used for the FE analysis.
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Local damage in a 5 - harness satin weave composite under static tension: part ii - meso - FE modelling
Composites Science and Technology, 2010Co-Authors: Subbareddy Daggumati, Joris Degrieck, Wim Van Paepegem, Stepan Vladimirovitch Lomov, I. VerpoestAbstract:This study forms the second part of a paper on the local damage analysis in a thermo-plastic 5-harness satin weave composite under uni-axial static tensile load. The experimental observations of Part I are confronted with the meso-FE simulations. Part II describes the following steps regarding the unit cell meso-FE modeling starting from: 1) Construction of the unit cell geometrical model; 2) Estimation of the homogenized elastic constants of the unit cell using different boundary conditions; 3) Evaluation of the local Stress and damage behavior of the unit cell using meso-FE simulations. The aim of the numerical analysis is to investigate the dependency of local Ply Stress and damage profiles on the adjacent layers of the laminate.
Wim Van Paepegem - One of the best experts on this subject based on the ideXlab platform.
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local damage in a 5 harness satin weave composite under static tension part ii meso fe modelling
Composites Science and Technology, 2010Co-Authors: Subbareddy Daggumati, Joris Degrieck, Wim Van Paepegem, Stepan Vladimirovitch Lomov, Ignace VerpoesAbstract:This study forms the second part of a paper on the local damage analysis in a thermo-plastic 5-harness satin weave composite under uni-axial static tensile load. The experimental observations of Part I are confronted with the meso-FE simulations. Part II describes the following steps regarding the unit cell meso-FE modelling starting from: (1) construction of the unit cell geometrical model; (2) estimation of the homogenized elastic constants of the unit cell using different boundary conditions; (3) evaluation of the local Stress and damage behavior of the unit cell using meso-FE simulations. The aim of the numerical analysis is to investigate the dependency of local Ply Stress and damage profiles on the adjacent layers of the laminate. In order to reflect the constraints posed by the surrounding plies, depending on the Ply placement in the laminate (inside/surface), different unit cell geometrical models with suitable boundary conditions were used for the FE analysis. From the numerical simulations it is observed that: (a) the homogenized elastic constants of the unit cell vary considerably depending on the boundary conditions used for the unit cell FE analysis; (b) intra-yarn Stress and damage profiles are sensitive to the unit cell model as well as the boundary conditions used for the FE analysis.
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Local damage in a 5 - harness satin weave composite under static tension: part ii - meso - FE modelling
Composites Science and Technology, 2010Co-Authors: Subbareddy Daggumati, Joris Degrieck, Wim Van Paepegem, Stepan Vladimirovitch Lomov, I. VerpoestAbstract:This study forms the second part of a paper on the local damage analysis in a thermo-plastic 5-harness satin weave composite under uni-axial static tensile load. The experimental observations of Part I are confronted with the meso-FE simulations. Part II describes the following steps regarding the unit cell meso-FE modeling starting from: 1) Construction of the unit cell geometrical model; 2) Estimation of the homogenized elastic constants of the unit cell using different boundary conditions; 3) Evaluation of the local Stress and damage behavior of the unit cell using meso-FE simulations. The aim of the numerical analysis is to investigate the dependency of local Ply Stress and damage profiles on the adjacent layers of the laminate.
Stepan Vladimirovitch Lomov - One of the best experts on this subject based on the ideXlab platform.
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local damage in a 5 harness satin weave composite under static tension part ii meso fe modelling
Composites Science and Technology, 2010Co-Authors: Subbareddy Daggumati, Joris Degrieck, Wim Van Paepegem, Stepan Vladimirovitch Lomov, Ignace VerpoesAbstract:This study forms the second part of a paper on the local damage analysis in a thermo-plastic 5-harness satin weave composite under uni-axial static tensile load. The experimental observations of Part I are confronted with the meso-FE simulations. Part II describes the following steps regarding the unit cell meso-FE modelling starting from: (1) construction of the unit cell geometrical model; (2) estimation of the homogenized elastic constants of the unit cell using different boundary conditions; (3) evaluation of the local Stress and damage behavior of the unit cell using meso-FE simulations. The aim of the numerical analysis is to investigate the dependency of local Ply Stress and damage profiles on the adjacent layers of the laminate. In order to reflect the constraints posed by the surrounding plies, depending on the Ply placement in the laminate (inside/surface), different unit cell geometrical models with suitable boundary conditions were used for the FE analysis. From the numerical simulations it is observed that: (a) the homogenized elastic constants of the unit cell vary considerably depending on the boundary conditions used for the unit cell FE analysis; (b) intra-yarn Stress and damage profiles are sensitive to the unit cell model as well as the boundary conditions used for the FE analysis.
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Local damage in a 5 - harness satin weave composite under static tension: part ii - meso - FE modelling
Composites Science and Technology, 2010Co-Authors: Subbareddy Daggumati, Joris Degrieck, Wim Van Paepegem, Stepan Vladimirovitch Lomov, I. VerpoestAbstract:This study forms the second part of a paper on the local damage analysis in a thermo-plastic 5-harness satin weave composite under uni-axial static tensile load. The experimental observations of Part I are confronted with the meso-FE simulations. Part II describes the following steps regarding the unit cell meso-FE modeling starting from: 1) Construction of the unit cell geometrical model; 2) Estimation of the homogenized elastic constants of the unit cell using different boundary conditions; 3) Evaluation of the local Stress and damage behavior of the unit cell using meso-FE simulations. The aim of the numerical analysis is to investigate the dependency of local Ply Stress and damage profiles on the adjacent layers of the laminate.
Joris Degrieck - One of the best experts on this subject based on the ideXlab platform.
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local damage in a 5 harness satin weave composite under static tension part ii meso fe modelling
Composites Science and Technology, 2010Co-Authors: Subbareddy Daggumati, Joris Degrieck, Wim Van Paepegem, Stepan Vladimirovitch Lomov, Ignace VerpoesAbstract:This study forms the second part of a paper on the local damage analysis in a thermo-plastic 5-harness satin weave composite under uni-axial static tensile load. The experimental observations of Part I are confronted with the meso-FE simulations. Part II describes the following steps regarding the unit cell meso-FE modelling starting from: (1) construction of the unit cell geometrical model; (2) estimation of the homogenized elastic constants of the unit cell using different boundary conditions; (3) evaluation of the local Stress and damage behavior of the unit cell using meso-FE simulations. The aim of the numerical analysis is to investigate the dependency of local Ply Stress and damage profiles on the adjacent layers of the laminate. In order to reflect the constraints posed by the surrounding plies, depending on the Ply placement in the laminate (inside/surface), different unit cell geometrical models with suitable boundary conditions were used for the FE analysis. From the numerical simulations it is observed that: (a) the homogenized elastic constants of the unit cell vary considerably depending on the boundary conditions used for the unit cell FE analysis; (b) intra-yarn Stress and damage profiles are sensitive to the unit cell model as well as the boundary conditions used for the FE analysis.
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Local damage in a 5 - harness satin weave composite under static tension: part ii - meso - FE modelling
Composites Science and Technology, 2010Co-Authors: Subbareddy Daggumati, Joris Degrieck, Wim Van Paepegem, Stepan Vladimirovitch Lomov, I. VerpoestAbstract:This study forms the second part of a paper on the local damage analysis in a thermo-plastic 5-harness satin weave composite under uni-axial static tensile load. The experimental observations of Part I are confronted with the meso-FE simulations. Part II describes the following steps regarding the unit cell meso-FE modeling starting from: 1) Construction of the unit cell geometrical model; 2) Estimation of the homogenized elastic constants of the unit cell using different boundary conditions; 3) Evaluation of the local Stress and damage behavior of the unit cell using meso-FE simulations. The aim of the numerical analysis is to investigate the dependency of local Ply Stress and damage profiles on the adjacent layers of the laminate.
