In this study, the effect of the impact angle of a projectile during low-velocity impact on Kevlar fabrics has been investigated using a simplified numerical model. The implementation of mesoscale models is complex and usually involves long computation time, in contrast to the practical industry needs to obtain accurate results rapidly. In addition, when the simulation includes more than one layer of composite ply, the computational time increases even in the case of hybrid models. With the goal of providing useful and rapid prediction tools to the industry, a simplified model has been developed in this work. The model offers an advantage in the reduced computational time compared to a full 3D model (around a 90% faster). The proposed model...
Impact simulation with finite element analysis is an appropriate manner to reduce the cost and time ...
The present work focuses on numerical investigation of impact on textile materials. An analytical m...
This works presents the first fully validated and predictive capability to model the V0-V100 probabi...
In this study, the effect of the impact angle of a projectile during low-velocity impact on Kevlar f...
The senior thesis is created and managed with the main purpose of designing and developing a para-a...
Fabric composites are widely applied in different fields and, in particular, have become a valid opt...
In this study, we present a numerical model to simulate the ballistic impact of a rigid right circul...
An investigation on the ballistic impact behaviour of tungsten blunt projectiles on Kevlar® 29 plain...
Textile-based composites are used in manufacturing of ballistic shields due to their favorable combi...
The widespread use of composite materials in load-carrying components leads to the need of studying ...
A finite element (FE) model is developed to simulate the ballistic impact of a flat-faced cylindrica...
Virtual testing of fabric armor provides an efficient and inexpensive means of systematically studyi...
AbstractAt present, the use of refined numerical simulation is gaining more and more importance, esp...
Composite textiles composed of materials such as Kevlar, Dyneema and Zylon are extensively used in m...
Impact simulation with finite element analysis is an appropriate manner to reduce the cost and time ...
The present work focuses on numerical investigation of impact on textile materials. An analytical m...
This works presents the first fully validated and predictive capability to model the V0-V100 probabi...
In this study, the effect of the impact angle of a projectile during low-velocity impact on Kevlar f...
The senior thesis is created and managed with the main purpose of designing and developing a para-a...
Fabric composites are widely applied in different fields and, in particular, have become a valid opt...
In this study, we present a numerical model to simulate the ballistic impact of a rigid right circul...
An investigation on the ballistic impact behaviour of tungsten blunt projectiles on Kevlar® 29 plain...
Textile-based composites are used in manufacturing of ballistic shields due to their favorable combi...
The widespread use of composite materials in load-carrying components leads to the need of studying ...
A finite element (FE) model is developed to simulate the ballistic impact of a flat-faced cylindrica...
Virtual testing of fabric armor provides an efficient and inexpensive means of systematically studyi...
AbstractAt present, the use of refined numerical simulation is gaining more and more importance, esp...
Composite textiles composed of materials such as Kevlar, Dyneema and Zylon are extensively used in m...
Impact simulation with finite element analysis is an appropriate manner to reduce the cost and time ...
The present work focuses on numerical investigation of impact on textile materials. An analytical m...
This works presents the first fully validated and predictive capability to model the V0-V100 probabi...