A Laminate Parametrization Technique for Discrete Ply-Angle Problems with Manufacturing Constraints
نویسندگان
چکیده
In this paper we present a novel laminate parametrization technique for layered composite structures that can handle problems in which the ply angles are limited to a discrete set. In the proposed technique, the classical laminate stiffnesses are expressed as a linear combination of the discrete options and design-variable weights. An exact `1 penalty function is employed to drive the solution toward discrete 0–1 designs. The proposed technique can be used as either an alternative or an enhancement to SIMP-type methods such as discrete material optimization (DMO). Unlike mixed-integer approaches, our laminate parametrization technique is well suited for gradient-based design optimization. The proposed laminate parametrization is demonstrated on the compliance design of laminated plates and the buckling design of a laminated stiffened panel. The results demonstrate that the approach is an effective alternative to DMO methods.
منابع مشابه
Parallel Genetic Algorithm with Population - based Sampling Approach to Discrete Optimization Under Uncertainty
The optimization of composite laminates using ply orientation angle as a discrete variable provides an example to demonstrate an approach for discrete optimization under uncertainty. The use of ply orientation angles as continuous design variables becomes a non-viable approach from a manufacturing perspective. Optimization under uncertainty accounts for design variables and external parameters ...
متن کاملA Comparison of Metallic and Composite Aircraft Wings Using Aerostructural Design Optimization
In this paper we examine the design of metallic and composite aircraft wings in order to assess how the use of composites modifies the trade-off between structural weight and drag. In order to perform this assessment, we use a gradient-based aerostructural design optimization framework that combines a high-fidelity finite-element structural model that includes panel-level design variables with ...
متن کاملA Full-space Barrier Method for Stress-constrained Discrete Material Design Optimization
In this paper, we present a full-space barrier method designed for stress-constrained mass minimization problems with discrete material options. The advantages of the full-space barrier method are twofold. First, in the full-space the stress constraints are provably concave, which facilitates the construction of convex subproblems within the optimization algorithm. Second, by using the full-spa...
متن کاملAnalysis and design of pultruded FRP shapes under bending
A comprehensive approach for the analysis and design of pultruded FRP beams in bending is presented. It is shown that the material architecture of pultruded FRP shapes can be efficiently modeled as a layered system. Based on the information provided by the material producers, a detailed procedure is preserited for the computation of fiber volume fraction (V r) of the constituents, including fib...
متن کاملMultiscale composite optimization with design guidelines
Composites show two distinctive features that affect the way in which they are optimized. Firstly, manufacturing strongly interacts with structural performance. Secondly, composites can be described at different scales. This article summarizes contributions that address both features. It is shown how design guidelines can be accounted for in laminate blended design through stacking sequence tab...
متن کامل