Add to ORKGThe paper presents an overview of the multi-level modelling of textile composites in the ITOOL project, focusing on the models of textile reinforcements, which serve as a basis for micromechanical models of textile composites on the unit cell level. The modelling is performed using finite element analysis (FEA) or approximate methods (method of inclusions), which provide local stiffness and damage information to FEA of composite part on the macro-level
The internal geometry of textile reinforcements is an important factor of the reinforcement performa...
The internal geometry of textile reinforcements is an important factor of the reinforcement performa...
Textile composites are widely used in advanced industrial applications and are made from various typ...
The paper presents an overview of the multi-level modelling of textile composites in the ITOOL proje...
Textile materials are characterised by the distinct hierarchy of structure, which should be represen...
One key objective of the ITOOL project is to improve failure and impact modelling of textile composi...
Meso-scale (unit cell of an impregnated textile reinforcement) finite element (FE) modelling of text...
Meso-mechanical modelling of textile composites on the “meso” (unit cell) level provides information...
Textile composites offer an excellent alternative to metallic alloys in the aerospace engineering du...
Textile composites describe a broad range of polymer composite materials with textile reinforcements...
International audienceThe role of textile reinforcements is particularly important in the developmen...
elements; multi-level analysis The paper discusses stages of the meso-FE analysis of a unit cell of ...
To address the ongoing efforts to virtually design complex composite materials and theirhigh-perform...
Textile manufacturing and textile processing parameters have a significant influence on the local fi...
The mechanical properties of woven composites can be predicted by using a multiscale modelling appro...
The internal geometry of textile reinforcements is an important factor of the reinforcement performa...
The internal geometry of textile reinforcements is an important factor of the reinforcement performa...
Textile composites are widely used in advanced industrial applications and are made from various typ...
The paper presents an overview of the multi-level modelling of textile composites in the ITOOL proje...
Textile materials are characterised by the distinct hierarchy of structure, which should be represen...
One key objective of the ITOOL project is to improve failure and impact modelling of textile composi...
Meso-scale (unit cell of an impregnated textile reinforcement) finite element (FE) modelling of text...
Meso-mechanical modelling of textile composites on the “meso” (unit cell) level provides information...
Textile composites offer an excellent alternative to metallic alloys in the aerospace engineering du...
Textile composites describe a broad range of polymer composite materials with textile reinforcements...
International audienceThe role of textile reinforcements is particularly important in the developmen...
elements; multi-level analysis The paper discusses stages of the meso-FE analysis of a unit cell of ...
To address the ongoing efforts to virtually design complex composite materials and theirhigh-perform...
Textile manufacturing and textile processing parameters have a significant influence on the local fi...
The mechanical properties of woven composites can be predicted by using a multiscale modelling appro...
The internal geometry of textile reinforcements is an important factor of the reinforcement performa...
The internal geometry of textile reinforcements is an important factor of the reinforcement performa...
Textile composites are widely used in advanced industrial applications and are made from various typ...