挤压温度过高或过低导致界面结合强度降低。
The bonding strength of the composite interface is reduced when too low or too high extrusion temperatures are employed.
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。
The interfacial bonding strength has been investigated quantitatively by single-pass pendulum scratching test.
基体中的元素在薄膜中有明显的扩散,有助于提高界面结合强度。
The diffusion of Ti, c, W of the substrate into the film improved the adhesion strength of the interface.
随热处理温度升高,界面结合强度降低,影响着材料的弯曲强度。
The strength of interface decreased for heat-treatment, which affected the flexural strength of the material.
由于碳纳米管与基体的界面结合强度低,使复合材料抗弯强度下降。
Because the low interface strength of carbon nanotube and metal matrix, carbon nanotube do not act as enhancements to bending.
大颗粒WC颗粒周围形成了厚达数微米的反应层,界面结合强度大为提高。
The interface between large WC particles and steel matrix forms the reaction layer of several mms which enhances the toughness of interface highly.
结果农明,碳没有被除尽,弱的碳界面层依然存在,没有增强界面结合强度。
The results indicate: a bit carbon was removed, and weak interphase joint exist still and did not build up the boundary 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 interfacial diffusion of alloying element is an important factor to microstructure, apparent hardness and interfacial bond strength.
本文针对这一问题系统地研究了新旧混凝土界面干湿状态对界面结合强度的影响。
The objective of this paper focuses on studying the influence of various moisture states on the old-new concrete interfacial bond.
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 interfacial diffusion of alloying element is important to microstructure, microhardness and interfacial bonding strength.
结果表明,界面干湿状态会影响界面结合强度,干燥状态对新旧混凝土结合最为有利。
The experimental results showed that the interface moisture condition is an important factor to influence the bonding force of the interface between new and old concrete.
采用有限元法对涂层与基体界面结合强度进行了力学模拟,并对试验模型提出了改进。
The mechanics evaluation of bonding strength between coating and substrate was performed with finite element method (FEM), and an improved test model was proposed.
分析了表面处理方法、冷变形、扩散退火温度和时间等工艺因素对界面结合强度的影响;
The influences of process parameters include surface preparation method, cold deformation, diffusion temperature and time.
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 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.
研究了试验参数对涂层界面结合强度的影响以及阳极氧化状态参数对钛基体表面形貌的影响;
The effect of the experimental parameters on the interfacial bonding strength was investigated, as well as the influences of the anodic oxidation state on the titanium substrate surface appearance.
对两组不同焊接规范下复合过渡接头的界面结合强度进行了对比,确定了合适的焊接工艺参数。
Interface bonding strength of clad transition joints welded in two different welding procedures is compared and a proper welding procedure is determined.
生物力学实验结果表明,使用羟基磷灰石涂层,可以显著提高骨组织与种植体的界面结合强度。
It was revealed by push out test that the hydroxyapatite coating greatly prompt the bonding strength between implant and surrounding hard tissues.
结果表明,真空烧结过程中出现了界面反应,改善了界面结合强度,断裂破坏主要在基体上进行。
The results show that interface element diffusion and reaction on interface in vacuum hot-pressing sintering processing improved interface strength. Fracture occurred mainly in Al matrix.
研究了在不同的界面干湿状态下,几种常见的修补材料和界面剂对新旧混凝土界面结合强度的影响。
This paper presented the influence of repair materials and primers on the interfacial bonds between new and old concretes under various moisture states.
骨的界面结合强度明显优于传统人工关节材料,组织学显示CFPEEK能与骨形成良好的生物学固定。
The bonding strength between CFPEEK and bone is higher than that of control materials. The histological results displayed that the biological fixation can be got in the CFPEEK-bone interface.
本文提出了一个确定层状复合材料界面结合强度的新模型,即由两种材料交替完全粘结在一起的复合梁。
In the present paper, a new model, a layered composite beam, is presented for determining the interface bonding strength of materials.
结果表明:该复合材料层间拉伸强度较少受到铺层取向的影响,而由纤维与基体的界面结合强度所控制。
It was concluded that the interlaminar tensile strength of the composite is dominated by the bonding strength of the interface between fiber and matrix, not by lay-up orientation.
采用亚音速氧乙炔火焰喷涂技术,喷涂一次性自粘结粉末,经测定涂层的结合强度可达到打底层的界面结合强度。
The strength of coating layer obtained by one-shot self-felt powder with subsonic oxygen-acetylene spraying technique was discussed.
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。
This conclusion provides theoretical supports for the interface sculpting to enhance the interfacial bonding strength, and advices for optimization of interface topography of...
通过力学性能测试、扫描电镜及透射电镜观察,研究了冷轧压下量及时效温度对内生复合钢板弱界面结合强度的影响。
Mechanical properties testing, SEM and TEM was used to study the effects of cold rolled reduction and aging temperature on the cohesion of the weak interface of DISC.
随着烧结温度的升高,元素扩散加剧,过渡层的厚度越厚,材料的层间界面结合强度升高,石墨层与BN层结合的越好。
With increasing sintering temperature, the joint of graphite and BN was increased and also there was transition layer in the interfaces relative to HP.
本文对钛合金表面不同类型涂层的设计进行了综合评述,并对如何提高生物活性陶瓷涂层与基体的界面结合强度提出建议。
The design of different kinds of coatings on titanium alloy was overviewed and some Suggestions on how to improve the bonding strength between bioactive ceramic coating and substrate were made.
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。
The mechanism of interfacial bonding between coating and substrate is expatiated, and the types of bonding interfaces, factors affecting interfacial bonding strength are analyzed.
本发明涉及基于XRD的涂层界面结合强度检测方法和装置,特指一种采用XRD检测涂层结结合强度的方法和装置,属于光学检测技术领域。
The invention relates to the method and the device to detect the bond strength of the coat interface based on the XRD which belongs to the optical detection technology.
本发明涉及基于XRD的涂层界面结合强度检测方法和装置,特指一种采用XRD检测涂层结结合强度的方法和装置,属于光学检测技术领域。
The invention relates to the method and the device to detect the bond strength of the coat interface based on the XRD which belongs to the optical detection technology.
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