基体材料

基体材料硬度和化学成分对TiN涂层结合力的影响

Effect of Matrix Materials Hardness and Chemical Compositions on Adhesion of TiN Coatings

Co粒子用作磁性液体基体材料的适宜粒径约为10.88nm，晶貌主要为六面体和棒形。

The diameter of the particles suitable for the matrix materials of magnetic liquid is about 10.88 nm , whose shapes are mainly hexahedron and clavatus .

沉积方式与基体材料对TiN薄膜内应力的影响

Effects of deposition and substrate on the evolution of internal stress in TiN Films

在断开的金属W基体材料中接头区域布满韧窝，颗粒间紧密结合。

It is full of toughness nest in the W substrate of the disconnect part and the particles combined closely .

利用MTS-H2-Ar体系，用化学气相沉积法（CVD）在SiC基体材料表面沉积SiC涂层。

SiC coatings on the surface of SiC base materials were prepared by CVD method with MTS-H_2-Ar system .

硬质覆层与45钢的界面为扩散型，界面结合良好.磨损实验表明FC－I的耐磨性远好于基体材料451钢。

Experiments also show that wear resistance of FC-I is far better than 45 steel .

惰性阳极基体材料NiFe2O4尖晶石的研制

The study of making NiFe_2O_4 spine used as basic material of inert anode

XRD测试表明复合材料的结晶性提高，掺入的经过表面改性的纳米银粒子与基体材料有良好的界面相容性。

XRD examinations revealed that Composite materials have better crystallization performance and nanometer silver particles modified had excellent interface compatibilities with polycarbonate .

硬度测试结果显示，当Al2O3颗粒的粒径和含量适度时，可以提高Cu基体材料的硬度。

Hardness testing results of composites show hardness of Cu matrix materials can be enhanced with suitable size and amount of Al2O3 particles in matrix .

TiN的加入使Al2O3-TiC基体材料的断裂韧性有所增加；

The addition of TiN increased the fracture toughness of Al2O3-TiC matrix material .

表面重熔区的硬度（HV）提高了近40，耐磨性能明显高于基体材料。

The hardness of surface remelting zone is increased by 40 Hv , superior to matrix in wear resistant .

根据对晶须与基体材料的热胀失配的分析，计算得出了Al＿2O＿3／TiB＿2／SiC＿w三元复合材料中SiC＿w的临界体积分数。

Based on the analysis of thermal expansion coefficient mismatch in Al_2O_3 / TiB_2 / SiC_w composite , the critical conditions for SiC_w content were deduced .

通过SEM观察，没有发现在ZrO2涂层和钛基体材料之间有氧化物的生成。

Careful observation of SEM imaging revealed that no oxide was found to form the interface between zirconia coating and titanium substrate .

提出削弱基体材料耐老化性的不是TiO2的光催化作用，而是TiO2晶格缺陷引起的光化学活性。

Opinions were put forward that impaired the aging behavior of the basis material was not the photocatalytic effect but the photochemical activity from lattice defect of TiO_2 .

本研究以316L不锈钢为基体材料，采用溶胶-凝胶法和浸渍提拉技术成功地在基体上制备了二氧化钛涂层，并研究其粘附性、光催化性、亲水性和耐腐蚀性。

This study adopts 316 stainless steel as base material , on whose surface the TiO2 coating is prepared successfully .

本文针对陶瓷基体材料，对CVD金刚石薄膜的沉积工艺、表面形貌、摩擦试验及实际应用进行了研究。

In this paper , based on ceramic substrates , CVD diamond deposition process , surface topography , tribological properties and practical application will be studied .

但CNTs在绝大多数溶剂中的不溶性及与其它基体材料相容性差严重制约其应用的进展。

However , the application progress of CNTs has been largely impeded by their insolubility in most solvents and poor compatibility with other matrix materials .

通过混酸处理，在保持基体材料氧化铝纳米晶粒和纳米石墨层骨架结构的同时，将各种含氧官能团引入到CPA表面。

By pre-treatment , various different oxygen functional groups have been grafted onto the surface of CPA without destroying alumina and nano-carbon bone structure of CPA .

在基体材料中添加PbO、B2O3和ZnO三种玻璃料，分析不同含量的玻璃料对织构陶瓷性能的影响。

The glass frits of PbO , B_2O_3 and ZnO were added into the matrix and analysed the influence on the properties of texture ceramics with different content of frit .

将远程等离子体与常规等离子体处理工艺对PTFE膜表面改性效果进行对比，结果表明，远程等离子体对基体材料表面具有更好的改性效果。

In this paper , the properties of etching and wettability for PTFE film treated by direct plasma and various Ar remote-plasma have been studied comparatively .

热塑性聚酰亚胺（PI）具有突出的热稳定性、良好的抗冲击、抗辐射和耐溶剂性能，是一类很有发展潜力应用于摩擦学领域的基体材料。

Thermoplastic polyimide ( PI ) with outstanding thermal stability , good impact resistance , solvent resistance and anti-radiation is a potential matrix material applied to the field of tribology .

在77K下，研究了高阻值基体材料对Bi-2223带的交流损耗的影响。

The effect of alloy matrix on AC magnetic field loss is investigated in 77K .

Cr含量从2%增加到26%，相对耐磨性从1增加到1.29，而复合材料相对于基体材料的耐磨性提高到5以上。

Their values can reach to 1.29 with increasing Cr content to 26 % . The relative wear resistance of the composite can also be increased to 5 times related to the matrix .

本文采用低Co硬质合金作为金刚石薄膜的基体材料，用微波等离子体化学气相沉积法（MPCVD）沉积金刚石薄膜。

In the present work , diamond films were deposited on Co-deficient Cemented Tungsten Carbide by microwave plasma chemical vapor deposition ( MPCVD ) .

POM和SEM的观察结果表明，蒸汽爆破处理后的剑麻纤维，与基体材料的结合作用得到了明显改善。

In addition , the results of POM and SEM analysis revealed that the interaction between SF and matrix resin was improved obviously due to steam explosion treatment .

酚醛树脂（PF）由于具有较好的耐热性能和力学性能，是聚合物基摩擦材料使用最多也是最重要的一类基体材料。

With good heat resistance and mechanical properties , Phenolic resin ( PF ) is the largest and most important substrate material of Polymer-based friction material .

涂层厚度、基体材料、裂纹形状、裂纹倾角等参数对涂层表面和界面裂纹的J积分有显著影响。

The influence of the parameters on j-integral value , which contains the thickness of coating , substrate material , shape of crack and obliquity of crack , are distinct .

在某些纤维增强复合材料（FRC）中使用金属或高分子聚合物作为基体材料。

Polymer is frequently used to be as the matrix of fiber reinforced composite ( FRC ) .

实验条件如下，温度：770～990℃，K2WO4浓度：9～20m/o，基体材料：钼、铜、镍和不锈钢。

The conditions of electroplating were as follows : temperature of melt : 770 ~ 900 ℃, concentration of K_2WO_4 : 9 ~ 20m / o , substrate : molybdenum , copper , nickel or stainless steel .

指出：室温下Al／SiC复合材料的阻尼主要是由增强颗粒与基体材料间弹性模量的不同造成的。

From the results , it was concluded that the damping of the composite Al / SiC was mainly generated from the differences of elastic module between the enhanced particles and matrix under room temperature .