Multiobjective optimization for unidirectional glass and carbon fiber-reinforced hybrid epoxy composites under flexural loading
Citation
Dong, C. 2019. Multiobjective optimization for unidirectional glass and carbon fiber-reinforced hybrid epoxy composites under flexural loading. Composites: Mechanics, Computations, Applications. 10 (1): pp. 39-68.
Source Title
Composites: Mechanics, Computations, Applications
ISSN
Faculty
Faculty of Science and Engineering
School
School of Civil and Mechanical Engineering
Collection
Abstract
A multiobjective optimization study for unidirectional carbon fiber- and glass fiber-reinforced epoxy hybrid composites under flexural loading is presented in this paper. The flexural strength of the hybrid composite was conveniently expressed by regression formulas. Two optimization methods—WSM and NSGA-II—were employed for multiobjective optimization with the cost and weight being the objective functions. When WSM was used, two algorithms, viz., interior point algorithm (IPA) and genetic algorithm (GA), were used. The results suggest that positive hybrid effects can be utilized to improve the flexural strength.
Related items
Showing items related by title, author, creator and subject.
-
Sudarisman (2009)The flexural behaviour of three different hybrid fibre-reinforced polymer (FRP) matrix composites, i.e. S2-glass/E-glass/epoxy, TR50S carbon/IM7 carbon/epoxy, and E-glass/TR50S carbon/epoxy hybrid FRP composites, has been ...
-
Kalantari, M.; Dong, Jonathan; Davies, Ian (2016)© 2016 Elsevier LtdWhilst the presence of a hybrid effect for the flexural strength of hybrid polymer matrix composites has been noted by several researchers, the reasons behind such a phenomenon remain unclear. In this ...
-
Kalantari, M.; Dong, Jonathan; Davies, Ian (2017)© 2017 Elsevier Ltd Multi-objective robust optimization of multi-directional carbon/glass fibre-reinforced epoxy hybrid composites has been presented in this study. Two conflicting objectives, namely minimizing the density ...