Add to ORKGElastic stiffness tailoring of composite panels with curved fibers, or Variable Angle Tows (VATs), for maximum buckling performance is presented. The panels are modeled efficiently using the exact finite strip program, VICONOPT, and are optimized using a Genetic Algorithm. VAT panel designs are compared with straight fiber panels and are shown to offer weight saving potential by increasing panel buckling loads. Finite strip analysis is also combined with a fracture mechanics model to predict the compressive strength (damage tolerance) of panels delaminated by impact damage. The analysis, which shows good agreement with experimental failure strains for straight fiber panels, is applied to the VAT designs. Results show that damage tolerance i...
Elastic stiffness tailoring of laminated composite panels by allowing the fibers to curve within the...
Automated manufacturing techniques of composite materials such as automated fiber placement (AFP) an...
Variable angle tow (VAT) composites have demonstrated better performance in buckling and post-buckli...
A computationally efficient two-level design methodology is developed for the optimization of stiffe...
Automated Fiber Placement (AFP) machines can manufacture composite panels with curvilinear fibers. I...
Automated fibre placement technology has made possible to place bands of composite fibre tows along ...
This work presents the buckling optimization of composite stiffened panels loaded in compression and...
In the present paper, we attempt a novel optimisation strategy for damage resistant composite stiffe...
Variable Angle Tow (VAT) placement allows the designer to tailor the composite structure to enhance ...
Variable Angle Tow (VAT) placed composite laminates, where the fibre orientations continuously varyi...
Variable stiffness composites are exciting emerging structures capable of improving structural perfo...
This paper presents an improved and extended version of a framework for the design of variable stiff...
Variable angle tow (VAT) describes fibres in a composite lamina that have been steered curvilinearly...
In the present paper, we attempt a novel optimization strategy of composite stiffened panels. The ...
Abstract | Variable Angle Tow (VAT) placement allows the designer to tailor the composite structure ...
Elastic stiffness tailoring of laminated composite panels by allowing the fibers to curve within the...
Automated manufacturing techniques of composite materials such as automated fiber placement (AFP) an...
Variable angle tow (VAT) composites have demonstrated better performance in buckling and post-buckli...
A computationally efficient two-level design methodology is developed for the optimization of stiffe...
Automated Fiber Placement (AFP) machines can manufacture composite panels with curvilinear fibers. I...
Automated fibre placement technology has made possible to place bands of composite fibre tows along ...
This work presents the buckling optimization of composite stiffened panels loaded in compression and...
In the present paper, we attempt a novel optimisation strategy for damage resistant composite stiffe...
Variable Angle Tow (VAT) placement allows the designer to tailor the composite structure to enhance ...
Variable Angle Tow (VAT) placed composite laminates, where the fibre orientations continuously varyi...
Variable stiffness composites are exciting emerging structures capable of improving structural perfo...
This paper presents an improved and extended version of a framework for the design of variable stiff...
Variable angle tow (VAT) describes fibres in a composite lamina that have been steered curvilinearly...
In the present paper, we attempt a novel optimization strategy of composite stiffened panels. The ...
Abstract | Variable Angle Tow (VAT) placement allows the designer to tailor the composite structure ...
Elastic stiffness tailoring of laminated composite panels by allowing the fibers to curve within the...
Automated manufacturing techniques of composite materials such as automated fiber placement (AFP) an...
Variable angle tow (VAT) composites have demonstrated better performance in buckling and post-buckli...