Add to ORKGOptimum hat-stiffened compression panel designs are determined by a structural synthesis technique. The effects of simplifying assumptions made in the buckling analysis for the optimization program are investigated by a linked plate element program. Optimization results for hat-stiffened graphite-epoxy panels show a 50-percent weight savings over optimized aluminum panels. Composite panels are shown to possess a variety of proportions at nearly constant weight
In this study, design considerations, structural analysis and manufacturing techniques for hat-stiff...
This work presents the buckling optimization of composite stiffened panels loaded in compression and...
This work presents the buckling optimization of composite stiffened panels loaded in compression and...
Structural efficiency studies were made to determine the weight saving potential of graphite/epoxy c...
Abstract Composite stiffened panel optimization is typi-cally a mixed discrete-continuous design pro...
27 pagesThis paper deals with the definition of an optimisation procedure for the design of the wing...
In the last few decades, the employment of composite materials in the industrial field is widely inc...
In this paper, a topology optimization methodology for the minimum weight of the composite stiffened...
A procedure is presented for designing uniaxially stiffened panels made of composite material and su...
A computationally efficient two-level design methodology is developed for the optimization of stiffe...
The structural efficiency of a range of panels under uniaxial compression is investigated using the ...
25 pagesThis paper deals with the definition of an optimisation procedure for the design of the wing...
The structural efficiency of a range of panels under uniaxial compression is investigated using the ...
25 pagesThis paper deals with the definition of an optimisation procedure for the design of the wing...
The structural efficiency of a range of panels under uniaxial compression is investigated using the ...
In this study, design considerations, structural analysis and manufacturing techniques for hat-stiff...
This work presents the buckling optimization of composite stiffened panels loaded in compression and...
This work presents the buckling optimization of composite stiffened panels loaded in compression and...
Structural efficiency studies were made to determine the weight saving potential of graphite/epoxy c...
Abstract Composite stiffened panel optimization is typi-cally a mixed discrete-continuous design pro...
27 pagesThis paper deals with the definition of an optimisation procedure for the design of the wing...
In the last few decades, the employment of composite materials in the industrial field is widely inc...
In this paper, a topology optimization methodology for the minimum weight of the composite stiffened...
A procedure is presented for designing uniaxially stiffened panels made of composite material and su...
A computationally efficient two-level design methodology is developed for the optimization of stiffe...
The structural efficiency of a range of panels under uniaxial compression is investigated using the ...
25 pagesThis paper deals with the definition of an optimisation procedure for the design of the wing...
The structural efficiency of a range of panels under uniaxial compression is investigated using the ...
25 pagesThis paper deals with the definition of an optimisation procedure for the design of the wing...
The structural efficiency of a range of panels under uniaxial compression is investigated using the ...
In this study, design considerations, structural analysis and manufacturing techniques for hat-stiff...
This work presents the buckling optimization of composite stiffened panels loaded in compression and...
This work presents the buckling optimization of composite stiffened panels loaded in compression and...