三维四向编织复合材料接头承载能力分析

STRENGTH PREDICATION FOR LOAD-BEARING JOINTS OF THREE-DIMENSIONAL BRAIDED COMPOSITES

针对三维四向编织复合材料单耳承力接头,用细观力学和均匀化方法分析三维编织复合材料的细观结构,用MATLAB程序对复合材料弹性性能进行参数化求解,利用ANSYS估算两种几何尺寸试样的破坏载荷。有限元计算结果与试验值有较好的吻合,显示文中方法可以满足工程设计和分析的要求。

Load response and failure modes of three-dimensional four-directional braided composite lugs were studied analytically and experimentally. The objective of the study was to get information on the stiffness, strength and failure mode of the lug, as well as on the applicability of the analysis method used to predict lug load response and failure. The analyses were performed using finite element method. Parabolic solid brick elements were used. A steel pin was modeled to apply the loading. The loading was appliod with a constant force distribution through the center of the pin. A contact was defined between the pin and the surrounding lug surface. The test lugs were manufactured with the resin transfer molding （RTM） technique. The test specimens were loaded parallel to the lug centerline. Two types of specimens were tested. There are three basic failure modes in braided composite joints： net-tension, shear-out, and bearing. Net-tension failure is associated with matrix and fiber tension failure due to stress concentrations. Shear-out and bearing failures result primarily from the shear and compression failures of fiber and matrix. The measured strains showed fairly good correlation with the analysis results. The strain response was almost linear, It can be concluded that with correct material properties the FE（finite element） approach used in the analyses can provide a reasonable estimate for the load response and failure of 3-d braided composite lugs.