The interfacial strength was measured using pyramidal diamond micro-debonding method.
用金刚锥显微脱粘法测得复合材料的界面强度。
Interfacial strength would be increased between carbon nanotubes and metal-matrix through electroless plating a continuous layer of copper on carbon nanotubes.
通过化学镀在碳纳米管表面镀上一层连续的铜镀层,以改善碳纳米管与金属基体的润湿性,增强界面结合力。
The key point to prepare glass fiber re-enforced polypropylene composite(PP/GF)is to improve the interfacial strength of non-polar polypropylene and polar glass fiber.
研制高性能的玻璃纤维增强聚丙烯复合材料的关键是提高非极性的聚丙烯和极性的玻璃纤维的界面粘结强度。
Through electroless plating carbon nanotubes were coated with a continuous layer of silver, which will increase interfacial strength between carbon nanotubes and metal-matrix.
通过化学镀可在碳纳米管表面镀上一层连续的银镀层,以增强碳纳米管与金属基体的界面结合力。
Bending strength, compressive strength, interfacial bond strength and frost-resistance were also studied and analyzed.
并对其抗压、抗折、新老界面粘结强度及抗冻性等进行了实验研究。
The results show that the interfacial adhesion strength increased noticeably for composites of active aramid fiber but the fracture energy of the interface decreased.
实验结果证明,芳纶表面改性显著提高了其复合材料界面的粘结强度,相反却降低了其界面断裂能。
Bond plane is the tache of weakness for the new and old concrete bond structure when withstanding shear force and tension. Appropriate interfacial agent can improve bond strength.
当承受剪力和拉力时,粘结面是新老砼粘结结构受力的薄弱环节,使用合适的界面剂可以提高其粘结强度。
The interfacial compatibility can also be observed through the shear strength test of the PVC-MBS heat adhesive sheet.
通过PV C -MBS片材的热粘合样品的剪切强度试验,也可观察它们界面的相容程度。
The results show that the interfacial bond strength of different embedding lengths in M30 mortar almost is a constant 3.
试验表明:在M 30砂浆中,纤维不同埋置长度的界面粘结强度基本为一常数3。
The single fiber fragmentation test has been used to determine the interfacial shear strength of composite materials.
单纤维段裂试验作为复合材料界面剪切强度的一种测试方法被沿用至今。
The present investigation deals with the relationship of tensile strength with components structure, interfacial compatibility and blend composition.
研究几种二元多相共混物的拉伸强度与组分的结构、界面区相容性、共混组成的关系。
The type of interfacial binding force was discussed in this paper, and formation process of bonding strength during wood gluing operation was also discussed.
简要概述了界面结合力的类型以及木材胶接操作过程中胶合强度的形成过程。
The interfacial diffusion of alloying element is an important factor to microstructure, apparent hardness and interfacial bond strength.
元素在界面两侧的扩散是影响材料显微组织、表观硬度及界面结合强度的关键。
The development of the better technique to characterize the bond strength of film-substrate interfacial is a hot topic that is concerned at large by film researchers.
开发新的膜—基界面结合强度定量检测技术是目前薄膜技术科研人员普遍关注的热点问题。
The interfacial debonding strength between polypropylene filament and cement paste and its affecting factors were studied by use of pull out method.
采用纤维单丝自水泥基体中拔出方法研究了聚丙烯纤维单丝与水泥石之间的界面脱粘强度及其影响因素。
Tensile yield strength was used to quantitatively evaluate the interfacial interactions, which have significant influence on the tensile fracture morphology of the composites.
采用拉伸屈服强度定量表征了界面相互作用的强弱,研究了界面相互作用对三元复合体系拉伸断裂形态的影响。
Bending strength, compressive strength, interfacial bond strength and frost-resistance are also studied and analyzed.
并对修补混凝土的抗折、抗压、新老界面粘结强度以及抗冻性等进行了试验研究。
Based on pullout tests of 48 specimens, interfacial bond strength between CFRP strand anchors and different bonding agents was systematically studied.
在此基础上,通过48个试件的拉拔试验,在国内首次对碳纤维塑料筋锚杆与多种粘结介质之间的界面粘结强度进行了研究。
In order to study the interfacial bond strength better, this paper developed a new method and test device of the interface.
为更好地评价界面粘结强度,论文开发了界面的成型方法与测试装置。
The interfacial diffusion of alloying element is important to microstructure, microhardness and interfacial bonding strength.
合金元素在界面两侧的扩散是影响材料显微组织、显微硬度及界面结合强度的关键。
The mechanism of interfacial bonding between coating and substrate is expatiated, and the types of bonding interfaces, factors affecting interfacial bonding strength are analyzed.
阐述了涂层与基体间的界面结合机理,分析了结合界面的类型、影响界面结合强度的因素以及改善涂层与基体间界面结合强度的途径。
Flexural strength and modulus of super-hybrid composite can be improved greatly by the better interfacial control. And the increasing rate of flexural modulus is more than that of flexural strength.
通过良好的界面控制,可显著提高复合材料的弯曲强度和弯曲模量,模量的提高比强度的提高幅度更大。
The strength of interfacial bonding showed different effect in the two systems.
界面键合强弱的影响在两体系中不相同。
Nowadays, the research focuses on the adhesion and retention of fiber posts. Besides the research on cement, surface treatment is widely studied to enhance the interfacial bond strength.
除了对粘接剂的研究外,纤维桩表面处理是增强界面粘接强度的常用方法之一,它可以促进不同成分之间形成化学和机械固位。
Furthermore, the cracking layer adjacent to hardened cement paste may affect the interfacial properties oi concrete, such as bond strength.
同时,界面水泥侧的易干裂层对混凝土的界面性能(如粘结强度等)可能有一定影响。
After high silica fiber is treated by coupling agent, excellent interfacial cohesion and flexural strength of super-hybrid composite are obtained.
偶联剂处理使高硅氧纤维与树脂基体的粘结强度增加,从而提高复合材料的弯曲强度。
The interfacial bonding strength has been investigated quantitatively by single-pass pendulum scratching test.
采用单摆冲击划痕法对膜基界面结合强度进行了定量研究。
Objective This research is to choose the best bonding way of ceramic crown by investigating the effects of different bonding agents and interfacial treatment on the occlusal strength of ceramic crown.
目的研究不同粘接剂与不同的粘接界面处理方法对陶瓷全冠咬合强度的影响,选择最佳粘接方式。
The interfacial shear strength (IFSS) between fibers and resin was measured by the microbond test.
单纤维段裂试验作为复合材料界面剪切强度的一种测试方法被沿用至今。
This conclusion provides theoretical supports for the interface sculpting to enhance the interfacial bonding strength, and advices for optimization of interface topography of...
这些结论为提高涂层界面结合强度的热障涂层界面造形提供了理论支持,也为热障涂层界面的优化提供了指导意见。
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