1·Bonding force of substrate and adhesive layer is large. No adhesive failure occurs during storage and construction.
基材与胶层结合力大,在存放或施工过程中不存在脱胶现象。
2·The fracture modes observed by using multiplication microscope indicated that the adhesive failure was the most mode of fracture.
断裂方式观察结果显示绝大部分样本的断裂方式都是粘结面型断裂。
3·The reason of the failure of epoxy bonded joint in water was that the epoxy adhesive on the metal surface was substituted for water.
环氧胶接接头在水中破坏失效的原因主要是渗入到胶接层的水分子取代了胶粘剂分子在金属表面的粘附。
4·Through pullout tests for shear resistance of the adhesive steel bar in the metal tube, the bond principals and failure modes of adhesives are studied.
通过对钢筋与金属套筒之间采用植筋胶粘结的拉伸抗剪试验,探讨了植筋胶的粘结机理和拉伸抗剪破坏模式。
5·Bat a decisive factors of ring failure are the adhesive wear and fatigue wear.
而钢领失效的决定性因素是粘着磨损和疲劳磨损。
6·The failure form of joint, mechanical analysis of joint, joint design and test methods of adhesive bonding of composites are presented briefly in this paper.
本文简略叙述复合材料胶接的接头破坏形式,接头力学分析,接头设计及测试方法。
7·Debonding at CFRP plate and adhesive interface is a common failure mode for NSM CFRP plate to concrete.
板-胶剥离破坏是混凝土表层嵌贴CF R P板条加固方式常见的破坏形式。
8·Attention should be paid to the shear strength of the adhesives since the shear stress could cause failure in the adhesive layer.
粘接剂主要以剪切的方式破坏,粘接剂剪切强度是一个值得注意的问题。
9·Through the control of critical points as the FRP length, number of FRP layer and mechanical property of adhesive, which is useful for restraining debonding failure.
通过对纤维布粘贴层数、长度以及粘结胶力学特性等关键要素的控制,可以有效地抑制粘结剥离破坏的发生。
10·The test may compare the fractured surface produced to failure analysis results within the adhesive interphase region.
试验比较粘合剂相间区内的断裂面产生失效分析结果。