分析了接头微观组织结构,元素的扩散及断口形貌。
The microstructure, element diffusion and appearance of joint were analysed.
熔体处理对罐用铝材铸态的微观组织结构产生了明显的影响。
The effect of melt-treatment technology on the as-cast microstructure of the sheet is remarkable.
激光功率密度和扫描速度对涂覆层微观组织结构有显著影响。
The effect of both laser power density and scanning speed on coating microstructure was remarkable.
利用空间群与热力学理论探讨了微观组织结构与抗蚀性能间的关系。
The relationship between the corrosion resistance and microstructure was discussed by using space group and thermodynamics theories.
用透射电子显微镜观察分析了增强体与基体合金界面的微观组织结构。
Also the microstructures at the interface of fiber and matrix were observed and analyzed through TEM.
目的:分析反复熔铸对镍铬烤瓷合金化学成分、微观组织结构变化的影响。
OBJECTIVE: To investigate the effects of recasting on the composition and microstructure of Ni-Cr ceramic alloys.
利用SEM和TEM等方法对晶须预制块和复合材料进行了微观组织结构分析。
Microstructures of the preform and the composite were analyzed under SEM and TEM.
短裂纹扩展研究:微观组织结构对疲劳短裂纹扩展的影响程度取决于裂纹的长度。
Short cracks propagation research: the degree of Microscopic structure influence to the fatigue crack propagation depends on crack length.
材料微观组织结构的三维重构和定量表征一直是国内外材料科学领域的焦点和难点。
Three-dimensional reconstruction and quantitative characterization of the microstructure of materials is the most important and difficult part of material science.
进一步对YBCO纳米薄膜的热处理工艺、薄膜形貌和微观组织结构进行了初步研究。
The YBCO thin films were prepared by dipping method on buffer layers. The heat treatment condition and crystal structure of the YBCO nanometer films were discussed.
目的:研究反复熔铸对非贵金属烤瓷合金铸流率、化学成分、微观组织结构的变化的影响。
Objective: To investigate the effects of recasting on the castability, composition and microstructure of non-precious ceramic alloy.
首先分别简述了气体雾化法、熔体快淬法和铸带法制备储氢合金的微观组织结构特征和电化学性能。
Firstly, the microstructure and the electrochemical properties of hydrogen storage alloys prepared, respectively, by gas atomization, melt quenching and strip casting were presented.
借助金相分析技术和极化曲线分析了铝阳极材料的微观组织结构及其对铝阳极腐蚀溶解机理的影响。
Microstructure was characterized by metallographic microscope, and the effect of its impact on corrosion mechanism was also discussed by polarization electrochemical method.
通过进行蠕变曲线测定和组织形貌观察,研究了FGH95粉末镍基合金的微观组织结构与蠕变行为。
By means of the measurement of creep curves and microstructure observation, an investigation has been made into the microstructure and creep behaviors of FGH95 powder nickel-base superalloy.
结果表明,细小、球形而又弥散分布的含硅夹杂相有利于细化基体晶粒,改善材料的内部微观组织结构。
The results show that the fine, spherical and dispersed inclusion contained Si is in favored of refining matrix crystals and optimizing internal microstructure of the alloy.
通过微观组织结构分析,揭示了材料在室温下产生蠕变行为的原因,并解释了两种材料蠕变行为的差异。
Substructure analysis of the materials elucidates the reasons for creep of the materials at room temperature and accounts for the difference between the two tested materials in creep behaviour.
众所周知,用有限元方法模拟异质体材料的微观组织结构、进行材料性能预测,是目前国际上通用的做法。
As everyone knows, Finite element method is in common use for forecasting organized-properties of Microstructure of Heterogeneous Materials.
用离心铸造的方法获取碳化钨颗粒增强铁基复合材料,分析了复合材料的力学性能、微观组织结构及界面反应。
WC particles reinforced iron matrix composites were manufactured by the centrifugal casting technique. The mechanical properties, microstructure, interface reactions of the composites were analyzed.
合金截面的小负荷维氏硬度出现由高变低再由低变高的规律性变化, 与合金内部微观组织结构的变化相对应。
Vickers hardness (HV2) along the gradient changes regularly from high to low, then from low to high, corresponding to the microstructure change in the alloy.
综述了电解海水用金属氧化物涂层阳极的研究现状和发展趋势,以及该阳极的电化学特性与微观组织结构的关系。
The recent status and trend of the development of metal oxide coated anode are reviewed with relationships between its electrochemical properties and microstructure discussed.
随着点火电流强度增大,燃烧反应时的起始温度升高、点火时间延长,但点火电流强度变化对燃烧合成产物的微观组织结构影响不大;
Companing with the increase of igniting current density, combustion temperature dropped and igniting time delayed, but this change had less effect on microstructure of the products;
采用扫描电镜(SEM)和X射线能谱分析仪对催化裂化装置(FCCU)沉降器内结焦物的微观组织结构和成分进行了分析,将结焦物划分为软焦和硬焦。
The microstructure and composition of coke from different parts of the FCCU disengager were analyzed by using both scanning-electron microscope(SEM) and X-ray analysis(EDS) methods.
我的专长是电子显微镜,研究微观结构和细胞组织的各种功能。
My specialty was electron microscopy-studying the microscopic structure and function of various kinds of cells and tissues.
用XRD和SEM分析了铸态及快淬态合金的相结构及微观组织形貌。
The phase structure and microstructure morphologies of the as-cast and quenched alloys were analysed and observed by XRD and SEM.
采用涂层断面金相、X射线衍射、扫描电镜分析方法,研究了涂层微观形貌、组织结构、组成成份。
With coat section metallographic, X-ray diffraction and scanning electrical mirror analysis method, have studied coat microscopic shape look, organization structure and the coating's composition.
生物组织散射元平均间距是描述生物组织微观结构和超声散射特性的重要参数。
Average scatterer spacing is one of the important parameters in describing the biological tissue microstructure and its ultrasonic scattering characteristics.
用XRD和SEM分析了铸态及快淬态合金的相结构,并观察了合金的微观组织形貌。
The phase structure and microstructure of as-cast and quenched alloys were analyzed and observed by XRD and SEM.
用XRD和SEM分析了铸态及快淬态合金的相结构,并观察了合金的微观组织形貌。
The phase structure and microstructure of as-cast and quenched alloys were analyzed and observed by XRD and SEM.
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