Add to ORKGABSTRACT: The effects of reinforcement geometry, in 2D and 3D woven fabric-reinforced composites, on the progression of damage and perforation failure at quasi-static loading rates (10–80mm/s) are investigated. The broad classes of glass-fiber-reinforced systems that were examined include 2D plain-woven laminates, 3D orthogonally woven monolithic systems, and 3D orthogonally woven laminates. The experimental results indicate that the 3D laminates consistently had greater damage tolerance than the 2D laminates and the 3D monolithic composites. The enhanced damage tolerance of the 3D systems is due to unique energy absorption mechanisms, which involve the crimped portion of z-tows. KEY WORDS: quasi-static puncture, GFRP, 3D orthogonal weave, ...
A class of composite materials with fully 3D fibre-reinforcements have shown weight efficient streng...
Three dimensional (3D) fibre-reinforced composites have shown weight efficient strength and stiffnes...
Mechanical behavior and failure modes of three-dimensional (3D) stitched composites were experimenta...
This Part 2 paper presents results of comparative experimental study of progressive damage in 2D and...
peer-reviewedThe use of traditional two-dimensional (2D) fibre preforms can be associated with poor ...
Three dimensional (3D) fibre-reinforced composites have shown weight efficient strength and stiffnes...
In this work, three types of 3D woven fabric (orthogonal, angle interlock, and layer-to-layer) were ...
Composites fabricated by VARTM technology with the use of single-ply non-crimp 3D orthogonal woven p...
Damage development in transparent woven glass fibre reinforced epoxy laminates manufactured from two...
3D woven composites provide improved out-of-plane performance over their two-dimensional counterpart...
This thesis presents an experimental and numerical investigation undertaken in order to develop the ...
An overview is presented of the fracture behaviour and failure mechanisms of composite laminates con...
The aim of this study was to understand the low-velocity impact energy absorption mechanism of the d...
ABSTRACT: The usage of laminated composite materials in critical applications requiring high specifi...
The deformation and failure micromechanisms of a hybrid 3D woven composite were studied in tension. ...
A class of composite materials with fully 3D fibre-reinforcements have shown weight efficient streng...
Three dimensional (3D) fibre-reinforced composites have shown weight efficient strength and stiffnes...
Mechanical behavior and failure modes of three-dimensional (3D) stitched composites were experimenta...
This Part 2 paper presents results of comparative experimental study of progressive damage in 2D and...
peer-reviewedThe use of traditional two-dimensional (2D) fibre preforms can be associated with poor ...
Three dimensional (3D) fibre-reinforced composites have shown weight efficient strength and stiffnes...
In this work, three types of 3D woven fabric (orthogonal, angle interlock, and layer-to-layer) were ...
Composites fabricated by VARTM technology with the use of single-ply non-crimp 3D orthogonal woven p...
Damage development in transparent woven glass fibre reinforced epoxy laminates manufactured from two...
3D woven composites provide improved out-of-plane performance over their two-dimensional counterpart...
This thesis presents an experimental and numerical investigation undertaken in order to develop the ...
An overview is presented of the fracture behaviour and failure mechanisms of composite laminates con...
The aim of this study was to understand the low-velocity impact energy absorption mechanism of the d...
ABSTRACT: The usage of laminated composite materials in critical applications requiring high specifi...
The deformation and failure micromechanisms of a hybrid 3D woven composite were studied in tension. ...
A class of composite materials with fully 3D fibre-reinforcements have shown weight efficient streng...
Three dimensional (3D) fibre-reinforced composites have shown weight efficient strength and stiffnes...
Mechanical behavior and failure modes of three-dimensional (3D) stitched composites were experimenta...