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Multi-objective design optimization of an innovative fibre composite sandwich panel for civil engineering applications

机译：用于土木工程应用的创新纤维复合夹芯板的多目标设计优化

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Fibre reinforced polymer (FRP) composite materials have become an important target for providing innovative structures in civil engineering applications. FRP composite structures have been used as a replacement for old degrading traditional structures or building new structures. This paper describes a methodology and results for an optimal design of innovative structural fibre composite sandwich floor panel by using Finite Element (FE) and multi-objective design optimization methods. The materials cost and the structural panel weight minimizations are regarded as two objective functions for the design target. The multi-objective simulated annealing (MOSA) algorithm was used to find the optimum design variables. The optimization results show that the skin orientation of ±45 degrees is the best design for two-way square floor panel design.

机译：纤维增强聚合物（FRP）复合材料已成为在土木工程应用中提供创新结构的重要目标。玻璃钢复合结构已被用来代替旧的，退化的传统结构或建造新的结构。本文介绍了一种利用有限元（FE）和多目标设计优化方法对结构纤维复合材料夹芯楼板进行优化设计的方法和结果。材料成本和结构面板重量的最小化被认为是设计目标的两个目标功能。使用多目标模拟退火（MOSA）算法来找到最佳设计变量。优化结果表明，±45度的蒙皮方向是双向方形地板设计的最佳设计。

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Awad Z. K.; Aravinthan T.; Zhuge Y.; Gonzalez F.;
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年度 2011
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正文语种 {"code":"en","name":"English","id":9}
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1. A review of optimization techniques used in the design of fibre composite structures for civil engineering applications [J] . Ziad K. Awad, Thiru Aravinthan, Yan Zhuge, Materials & design . 2012,第Jana期

机译：土木工程应用中纤维复合结构设计中的优化技术综述
2. Creep of Sandwich Panels with Longitudinal Reinforcement Ribs for Civil Engineering Applications: Experiments and Composite Creep Modeling [J] . Garrido Mario, Correia Joao R., Keller Thomas, Journal of Composites for Construction . 2017,第1期

机译：用于土木工程的具有纵向加强筋的夹芯板的蠕变：实验和复合蠕变模型
3. GFRP sandwich panels with PU foam and PP honeycomb cores for civil engineering structural applications Effects of introducing strengthening ribs [J] . J.R. Correia, M. Garrido, J.A. Gonilha, International journal of structural integrity . 2012,第2期

机译：GFPU夹层板，带PU泡沫和PP蜂窝芯，适用于土木工程结构应用引入加强筋的效果
4. Structural Behaviour of Composite Sandwich Panels for Civil Engineering Applications [C] . Jo?o RAM?A CORREIA, Fernando BRANCO, Inês ALMEIDA, International symposium on bridge and structural engineering;IABSE symposium on large structures and infrastructures for environmentally constrained and urbanised areas . 2010

机译：土木工程应用复合夹芯板的结构性能
5. Development of probabilistic models for long term reliability of sandwich composites in saline freeze/thaw environment for civil engineering applications [D] . Emami, Sadra. 2017

机译：开发用于土木工程的盐水冻融环境中三明治复合材料长期可靠性的概率模型
6. Natural Fibre-Reinforced Polymer Composites (NFRP) Fabricated from Lignocellulosic Fibres for Future Sustainable Architectural Applications Case Studies: Segmented-Shell Construction Acoustic Panels and Furniture [O] . Hanaa Dahy 2019

机译：由木质纤维素纤维制成的天然纤维增强聚合物复合材料（NFRP）可用于未来的可持续建筑应用案例研究：分段壳结构吸音板和家具
7. Behaviour of innovative fibre composite sandwich panels for structural applications [O] . Plain Matthew 2009

机译：用于结构应用的创新纤维复合夹芯板的性能
8. Design of Fibre Reinforced Composite Panels for Aerospace Applications (Ontwerpen [R] . van Bladel, P. G. 1995

机译：航空航天用纤维增强复合板的设计（Ontwerpen

Multi-objective design optimization of an innovative fibre composite sandwich panel for civil engineering applications

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