The anisotropic advantageous properties of fiber reinforced composites may not be fully exploited unless the fibers are properly placed in their optimal spatial orientations. This paper investigates application of Cellular Automata (CA) for curvilinear fiber design of composite laminae for in-plane responses. CA use local rules to update both field and design variables in an iterative scheme till convergence. In the present study, displacement update rules are derived using a finite element model governing the equilibrium of the cell neighborhood and fiber angles are locally optimized based on a minimum strain energy criterion. A manufacturing improvement is applied on top of the local optimum orientation wherever this angle is not consiste...
A variable stiffness design can increase the structural performance of a composite plate and provide...
Additive manufacturing for fibre-reinforced composite structures is rapidly diffusing, since it enab...
Presently, there exists an important need for lighter and more resistant structures, with reduced ma...
Growing number of applications of composites materials in aerospace and naval structures along with ...
The paper proposes a mixed strain- and stress-based topology optimization method for designing the i...
The implementation of Cellular Automata (CA) techniques for the analysis and design of two-dimension...
Fibre reinforced composites are widely used as structural components in the aerospace industry. The...
Includes bibliographical references (pages 125-128).Over the last several decades, the trend in mate...
In this study, a lamination parameter based optimization algorithm is developed in a finite element ...
In this paper, design strategies are developed to explore better approaches of enforcing local layer...
The need for lighter structure in the airplane industry has led to wide applications of fibre-reinfo...
Automated Fiber Placement (AFP) machines can manufacture composite panels with curvilinear fibers. I...
Automated fibre placement (AFP) machines are able to place simultaneously several bundles of fibres,...
It is often hard to optimise constrained layer damping (CLD) for structures more complicated than si...
Cellular Automata (CA) models have been used to simulate complex biological and physical phenom-ena....
A variable stiffness design can increase the structural performance of a composite plate and provide...
Additive manufacturing for fibre-reinforced composite structures is rapidly diffusing, since it enab...
Presently, there exists an important need for lighter and more resistant structures, with reduced ma...
Growing number of applications of composites materials in aerospace and naval structures along with ...
The paper proposes a mixed strain- and stress-based topology optimization method for designing the i...
The implementation of Cellular Automata (CA) techniques for the analysis and design of two-dimension...
Fibre reinforced composites are widely used as structural components in the aerospace industry. The...
Includes bibliographical references (pages 125-128).Over the last several decades, the trend in mate...
In this study, a lamination parameter based optimization algorithm is developed in a finite element ...
In this paper, design strategies are developed to explore better approaches of enforcing local layer...
The need for lighter structure in the airplane industry has led to wide applications of fibre-reinfo...
Automated Fiber Placement (AFP) machines can manufacture composite panels with curvilinear fibers. I...
Automated fibre placement (AFP) machines are able to place simultaneously several bundles of fibres,...
It is often hard to optimise constrained layer damping (CLD) for structures more complicated than si...
Cellular Automata (CA) models have been used to simulate complex biological and physical phenom-ena....
A variable stiffness design can increase the structural performance of a composite plate and provide...
Additive manufacturing for fibre-reinforced composite structures is rapidly diffusing, since it enab...
Presently, there exists an important need for lighter and more resistant structures, with reduced ma...