Influence of Textile Reinforcement on Bending Properties and Impact Strength of SMC-components

King Mongkut’s University of Technology North Bangkok International Journal of Applied Science and Technology Pub Date : 2015-10-08 DOI:10.14416/j.ijast.2015.07.005

F. Gortner, L. Medina, P. Mitschang

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引用次数: 6

Abstract

In Europe, Sheet Molding Compound (SMC) has high market relevance in the field of glass fiber reinforced polymer composites with a market share of almost 20% in terms of mass. The material has a thermal expansion coefficient similar to steel and special grades show Class-A surface quality being thereby an appreciated material in the automotive industry. The mechanical properties of SMC components and thus its implementation in new application fields are mainly limited by the type of fiber and fiber length. The project “Preform-SMC” analyzed the combination of the standard SMC process (chopped long fibers) and the preform technology (textiles) in order to improve the overall performance of components. The studies revealed that the quality of the impregnation of the preform material is mainly determined by the density and thus the filler content of the SMC semi-finished product and the layer structure of the reinforcing fibers. Locally implemented reinforcing textiles improve, by implementing endless fibers among load paths, the mechanical properties. Depending on the fiber type and the layer structure e.g. impact strength and absorbed energy could at least be doubled.

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纺织增强材料对smc构件弯曲性能和冲击强度的影响

在欧洲，薄板成型复合材料(SMC)在玻璃纤维增强聚合物复合材料领域具有很高的市场相关性，按质量计算，其市场份额几乎占20%。该材料的热膨胀系数与钢相似，特殊牌号的表面质量为a级，因此是汽车工业中非常受欢迎的材料。SMC元件的力学性能及其在新应用领域的实现主要受到纤维类型和纤维长度的限制。“预成型-SMC”项目分析了标准SMC工艺(短切长纤维)和预成型技术(纺织品)的结合，以提高部件的整体性能。研究表明，预制体材料的浸渍质量主要取决于SMC半成品的密度，从而决定填料含量和增强纤维的层状结构。局部实施的增强纺织品，通过在载荷路径中实施无限纤维，改善了机械性能。根据纤维类型和层结构的不同，例如冲击强度和吸收能量至少可以增加一倍。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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King Mongkut’s University of Technology North Bangkok International Journal of Applied Science and Technology

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