Debonding Failure Mechanism of Composite Stiffened Plate Under Compression Load

机译：压缩载荷作用下复合加劲板的脱胶破坏机理

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The progressive failure model of composite stiffeners was established by using the commercial finite element software ABAQUS. Puck criterion was used to determine the failure of composite materials, and the material properties were exponentially attenuated according to the failure mode. The secondary stress criterion and B-K criterion are used to determine the initial and final failure of the interface. Then, the compression failure process of composite stiffened plate was simulated, and the effectiveness of the model was verified by experiments. On this basis, the failure mechanism of debonding is analyzed. Debonding begins at the intersection of the flexural nodal line ( or anti-nodal line) and the free edge of the lower edge of the rib, and the inducing factor is torque (or transverse bending moment).

机译：利用商业有限元软件ABAQUS建立了复合材料加劲肋的渐进破坏模型。使用圆盘准则确定复合材料的破坏，并根据破坏模式对材料的特性进行指数衰减。次要应力准则和B-K准则用于确定界面的初始和最终失效。然后，模拟了复合材料加筋板的压缩破坏过程，并通过实验验证了模型的有效性。在此基础上，分析了脱胶的失效机理。剥离开始于挠性节点线（或反节点线）与肋骨下边缘的自由边缘的相交处，并且诱发因素是扭矩（或横向弯矩）。

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《International Conference on Advanced Electronic Materials, Computers and Software Engineering》|2020年|602-605|共4页
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Junchao Yang; Yanan Chai; Qian Sun;
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composite; stiffened plate; debonding; failure mechanism; compression;

机译：复合材料;加劲板;脱胶;破坏机理;压缩;

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Debonding Failure Mechanism of Composite Stiffened Plate Under Compression Load

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