1.The proposed rebar stiffener was found to be very effective in improving the static behavior of the composite connections.
建议加强筋加劲肋被发现能非常有效地提高连接复合的静力性能。
2.Next, apply a second coat to both the stiffener and the disc, let them dry for a few minutes, and then press together.
接下来,适用于第二层都加劲和光碟,让他们干为几分钟,然后按下在一起。
3.S bend box body thickness of each panel, stiffener size and spacing of the stiffener location, structural strength will be greatly affected.
弯盒体各个面板的厚度、加强筋的间距尺寸和加强筋位置,将对结构强度有很大的影响。
4.We have done some loading testing on the panel with different initial deflections and different stiffener.
对不同初始挠度以及不同加劲规格的薄板作了加载试验。
5.The cohesive element for the nonlinear finite element software ABAQUS is used to simulate the interface between the stiffener and the skin.
利用非线性有限元软件ABAQUS粘接单元模拟筋条与蒙皮的脱层界面。
6.The relatively small reduction in stress intensity magnification factor with increasing stiffness of the stiffener.
随着加强肋刚度的增加,应力强度放大因子则相应有所减小。
7.According to the optimal parameters, the stamping of B-pillar stiffener can be successfully processed to satisfy the quality requirement.
按照优化参数能够使B柱加强板顺利拉延成形并满足质量要求。
8.The stiffener layout optimization of thin walled structures is addressed in this article using a topology optimization method.
采用拓扑优化方法研究了薄壁结构的加筋布局优化问题。
9.The rack uses the channel steel to take the main body, the middle with stiffener board welded together.
机架采用槽钢作为主梁,中间加加强筋板焊接而成。
10.The failure mechanisms and the loading capacity of stiffened composite panels with stiffener runout are studied.
研究了复合材料加筋板筋条斜削区的失效过程并预测了结构的承载能力。