No substrate deformation and collapse, no strength reduction and cracks after welding.
无基材结构变形的影响,无变形及塌陷,焊接后强度减小和龟裂。
Compared with other conductive metal layer, copper coating with small with stress, high mechanical strength, the plastics substrate and coating binding force is good wait for a characteristic.
与其它导电金属层相比,镀铜层具有应力小、机械强度高、塑料基体与镀层结合力好等特点。
The portion of the powder formulation that forms the primary strength of the film. It binds pigments and additives into a solid film and to the substrate.
在粉末涂料配方中,构成涂膜的主要成分,它用以连接颜料和助剂,在基材上形成固体涂膜。
The bonding strength is ensured by the correct choice of substrate material, surface preparation, adhesive and process parameter.
粘合强度可以通过选择正确的基体材料、表面处理、胶粘剂和工艺参数得以保证。
A new method for measuring bonding strength between electroplated layer and substrate of diamond tool is proposed.
提出一种新的电镀金刚石工具镀层与基体结合强度测试方法。
Inorganic compound waterproof coating quality elastic new concept: cement - produce waterproof substrate surface affinity, giving water proofing property, waterproof strength, hardness.
无机质弹性复合防水涂膜新概念:水泥—产生防水基材表面亲和力,赋予防水性、防水强度、硬度;
The addition of PS can reduce the dielectric constant of glass-ceramic substrate materials effectively, but reduce the flexural strength at the same time.
在玻璃陶瓷基板材料中加入PS有机球能有效地降低基板的介电常数,但同时影响基板的抗折强度。
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.
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 bond strength between the coating and substrate can be enhanced through producing functionally graded coating.
通过制备梯度涂层可以提高涂层与基体之间的结合强度。
Selection of adhesive for bonding strength fi eld pull-out tests of thermal insulation layer and substrate was introduced.
介绍了在保温板材与基层的粘结强度现场拉拔试验中粘结剂的选用。
The microstructure and the conductive properties as well as the bonding strength of the conductive lines with the substrate are studied.
系统研究了激光直写导电层的组织结构特征、导线与基板的结合强度以及导线导电率的变化特征。
The optimal composition was chosen with the linking strength between the stainless-steel and the dielectric and the metamorphosis of the sintered substrate.
根据介质层与基板的结合强度以及基板的变形量大小,筛选最佳介质浆料配方。
The heat treatment caused crystallization of the amorphous titania nanotube arrays, it contribute to bonding strength with the substrate of titanium.
热处理使无定型的氧化钛纳米管阵列结晶,有助于提高其与钛基底的结合强度。
The results show that the shearing strength of the interface between clad layer and substrate is higher than of substrate and clad layer of some alloys.
熔覆层与基材交界处的剪切强度比热影响区高,并比某些合金的熔覆层高。
It is pointed out that it is very important to control and adjust the residual stress formed in the interface to elevate the interface strength between the coating layer and the metal substrate.
指出抑制和调控界面层残余应力以提高其与基体金属间结合强度是关键环节。
Choose spraying process parameters are the main principles of the coating and improve the bonding strength of the substrate.
选择喷涂工艺参数的主要原则是提高涂层与基材的结合强度。
However, the preheating temperature should not be too high, so as to avoid matrix effects of surface oxidation and surface coating and the substrate bonding strength.
但预热温度不宜过高,以免引起基体表面氧化而影响涂层与基体表面的结合强度。
The substrate has high strength, high heat conductivity, corrosion resistance, low cost, easy production and other features.
该基片具有强度高、传热快、耐浸蚀、成本低、易生产等特点。
The mechanics evaluation of bonding strength between coating and substrate was performed with finite element method (FEM), and an improved test model was proposed.
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 formed green thin substrate is smooth and flexible with a certain strength and uniform microstructure.
成型的坯体表面平整、柔韧性好、有一定的强度、显微结构均匀。
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.
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。
Experiment results indicated that rare earth could improve the hardness of bright nickel plating, the cathode polarization ability, the substrate bond strength and the grinding ratios of diamond tool.
研究结果表明,在镀液中添加稀土可以提高亮镍镀层的硬度和镀液的阴极极化能力,提高镀层与基体的结合强度和金刚石工具的磨削比。
The emphasis was put on the critical indentation depth with the influence of the yield strength ratio of the soft film to the harder substrate and the size of the indenter.
重点研究了平压头压入过程中,不同屈服强度比(软薄膜屈服强度与硬基体屈服强度之比)以及不同压头尺寸下硬基体对压痕规律的影响。
The bonding strength of the interface between HA coatings and substrate was improved when the substrate was treated by anodic oxidation or H2O2 was used during the electrodeposition.
电沉积添加双氧水与钛基材经过阳极氧化后使得涂层与基体结合强度有所提高。
The diffusion of Ti, c, W of the substrate into the film improved the adhesion strength of the interface.
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。
Ta coating was prepared by plasma spraying, which composition and morphology were investigated using SEM, also the bonding strength between Ta coating and Al substrate was tested.
采用等离子喷涂法制备了钽金属涂层,用电子显微镜分析了不同工艺条件下钽涂层的化学成分、表面形貌,测试了涂层与基材的结合强度。
Then hardness of coatings and substrate was measured. By means of bend-rotation fatigue tests, fatigue strength of coating and uncoating specimens was compared after hardening and tempering.
然后测量涂层和基体的硬度,并通过采用旋转弯曲疲劳试验比较涂层试样与未涂层试样的疲劳强度。
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。
Composition of the oxide scale formed on the stainless steel surface and the bonding strength between the layer and substrate directly determines the difficulty of pickling.
不锈钢表面氧化皮成分及其与基体的界面结合强弱直接决定了酸洗的难易程度。
Composition of the oxide scale formed on the stainless steel surface and the bonding strength between the layer and substrate directly determines the difficulty of pickling.
不锈钢表面氧化皮成分及其与基体的界面结合强弱直接决定了酸洗的难易程度。
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