三维整体中空复合材料的力学性能研究进展
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摘要
三维整体中空复合材料是一种新型的夹芯结构材料,是将芯材和上下面板交织连接在一起,芯材和面板构成一个整体。三维整体中空复合材料的面板与芯材为一体结构且一次固化成型,因此具有优异的抗分层、抗冲击、高损伤容限等性能。研究三维整体中空复合材料的力学性能对其结构设计与应用具有重要的指导意义。详细介绍了三维整体中空复合材料的平压性能、侧压性能、剪切性能、弯曲性能等力学性能的研究进展,提出目前研究存在的问题,以期为以后的发展提供研究方向。
The three-dimension integrated hollow sandwich composites is a novel sandwich structure material, which is obtained by interweaving the core material and the upper and lower panels together, and the core material and the panel become a unitary structure. The panel of the three-dimension integrated hollow sandwich composites is integrated with the core material and is formed by one-time curing, so that it has excellent properties such as resistance to delamination, impact resistance, and high damage tolerance. Studying the mechanical properties of three-dimension integrated hollow sandwich composites has important guiding significance for its structural design and application. In this paper, the research progress of mechanical properties of three-dimension integrated hollow sandwich composites in terms of flatwise compression, side compressive, shear, bending and impact properties were introduced in detail, and the existing problems are pointed out, to provide direction for future research.
The three-dimension integrated hollow sandwich composites is a novel sandwich structure material, which is obtained by interweaving the core material and the upper and lower panels together, and the core material and the panel become a unitary structure. The panel of the three-dimension integrated hollow sandwich composites is integrated with the core material and is formed by one-time curing, so that it has excellent properties such as resistance to delamination, impact resistance, and high damage tolerance. Studying the mechanical properties of three-dimension integrated hollow sandwich composites has important guiding significance for its structural design and application. In this paper, the research progress of mechanical properties of three-dimension integrated hollow sandwich composites in terms of flatwise compression, side compressive, shear, bending and impact properties were introduced in detail, and the existing problems are pointed out, to provide direction for future research.
引文
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