会议论文详细信息
World Multidisciplinary Civil Engineering-Architecture-Urban Planning Symposium - WMCAUS
Numerical Simulation of Thermal Performance of Glass-Fibre-Reinforced Polymer
土木建筑工程
Zhao, Yuchao^1 ; Jiang, Xu^1 ; Zhang, Qilin^1 ; Wang, Qi^1
College of Civil Engineering, Tongji University, No.1239, Sipin Road, Shanghai
200092, China^1
关键词: Bending elastic modulus;    Dynamic thermomechanical analysis;    Glass fibre reinforced polymers;    High-temperature experiments;    High-temperature processing;    Physical and mechanical performance;    Physical and mechanical properties;    Traditional Construction Materials;   
Others  :  https://iopscience.iop.org/article/10.1088/1757-899X/245/2/022016/pdf
DOI  :  10.1088/1757-899X/245/2/022016
学科分类:土木及结构工程学
来源: IOP
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【 摘 要 】

Glass-Fibre-Reinforced Polymer (GFRP), as a developing construction material, has a rapidly increasing application in civil engineering especially bridge engineering area these years, mainly used as decorating materials and reinforcing bars for now. Compared with traditional construction material, these kinds of composite material have obvious advantages such as high strength, low density, resistance to corrosion and ease of processing. There are different processing methods to form members, such as pultrusion and resin transfer moulding (RTM) methods, which process into desired shape directly through raw material; meanwhile, GFRP, as a polymer composite, possesses several particular physical and mechanical properties, and the thermal property is one of them. The matrix material, polymer, performs special after heated and endue these composite material a potential hot processing property, but also a poor fire resistance. This paper focuses on thermal performance of GFRP as panels and corresponding researches are conducted. First, dynamic thermomechanical analysis (DMA) experiment is conducted to obtain the glass transition temperature (Tg) of the object GFRP, and the curve of bending elastic modulus with temperature is calculated according to the experimental data. Then compute and estimate the values of other various thermal parameters through DMA experiment and other literatures, and conduct numerical simulation under two condition respectively: (1) the heat transfer process of GFRP panel in which the panel would be heated directly on the surface above Tg, and the hot processing under this temperature field; (2) physical and mechanical performance of GFRP panel under fire condition. Condition (1) is mainly used to guide the development of high temperature processing equipment, and condition (2) indicates that GFRP's performance under fire is unsatisfactory, measures must be taken when being adopted. Since composite materials' properties differ from each other and their high temperature parameters can't be obtained through common methods, some parameters are estimated, the simulation is to guide the actual high temperature experiment, and the parameters will also be adjusted by then.

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