1)growing interface生长界面
1.Auger electronic energy spectrum was applied in the paper to analyze the metallic film surface of growing interface of diamond monocrystal and fine Auger spectrum of adjacent carbon atom,as well as Auger spectrum structure of the surroundings and surface of diamond monocrystal.用A uger电子能谱技术分别进行金刚石单晶生长界面的金属膜表面及附近碳原子的精细A uger谱分析、金刚石单晶附近及其表面的A uger谱精细结构分析。
2.Furthermore,the crystal morphology and the growing interface were also discussed.此外,我们对晶体的外形和生长界面作了讨论。
英文短句/例句
1.Research on the Growth Interface Characteristic and Phase Transformation Mechanism of YBCO;YBCO生长界面特性及相转化机理研究
2.Research on Growth Interface of Diamond Crystal under the High Pressure and Temperature Environment;高温高压条件下金刚石单晶生长界面的研究
3.Similar solution to one-dimensional crystal growth question of the straight interface;平直界面一维晶体生长问题的相似解
4.The Growth Behavior of Interfacial IMC of Sn-0.7Cu/Cu by Laser Braze Welding激光钎焊Sn-0.7Cu/Cu界面IMC生长行为
5.Research on Modeling and Application of Fungal Growth on Interface;界面微生物生长模型及应用的初步研究
6.The Research Status of CNTS' Growth Mechanism and the Exploration of Its Solid-liquid Interface Growth Model碳纳米管生长机理研究现状及固-液界面生长模型探索
7.Research on the Growth and Interface Control of Ferroelectric Oxide Films氧化物铁电薄膜生长与界面控制方法研究
8.The Effects of High Magnetic Field on the Growth of Intermetallic Compounds;强磁场对界面金属间化合物生长的影响
9.Preparation of Selenium Nanoparticles and Its Copper /Sliver Composites Through Intereface-growth Process;界面生长法制备纳米硒及其铜银复合物
10.Effect of La content on growth of voids along interface between aluminized coating and steel substrateLa含量对渗铝层/基体界面孔洞生长的影响
11.Diffusion-controlled growth of polyaniline nanofibers ataqueous/organic interfaces水相/有机相界面扩散控制聚苯胺纳米线生长
12.GLOBAL ANALYSIS OF HEAT TRANSFER IN CZ SINGLE CRYSTAL GROWTH FURNACE(3):EFFECT OF FREE SURFACE SHAPE单晶生长炉全局热分析(3)——自由界面形状的影响
13.The Study on Mechanisms of Pellicle Formation by Shewanella Oneidensis奥奈达希瓦氏菌气液界面生物膜的生长及其机制研究
14.As Alex Iskold explained, on one hand we have the rapid rise of Second Life and other virtual worlds说明的,一方面我们有第二人生和其它虚拟世界的快速增长。
15.cosmopolitan herbs especially southern hemisphere; many used as ground covers.一个世界性草本属,尤其生长在南半球;许多作为地面覆盖物。
16.Evolution of Solid-liquid Interface of CdZnTe Crystal Growth by Vertical Bridgman Method碲锌镉垂直布里奇曼法晶体生长过程固液界面的演化
17.Dynamics of Complex System and Scaling Behaviors of the Interface in Random Media;复杂系统动力学与随机媒质中界面生长的标度行为
18.Measurement of Interfacial Energy Anisotropy and Study of Free Dendritic Growth of Succinonitrile;丁二腈界面能各向异性的测量及自由枝晶生长研究
相关短句/例句
Growth Interface生长界面
1.Research on Growth Interface of Diamond Crystal under the High Pressure and Temperature Environment;高温高压条件下金刚石单晶生长界面的研究
2.The critical width of the temperature pulse to avoid the temperature wave penetrating the boundary layer and reaching to the growth interface at a constant rotation speed is discussed.本文从温度波在熔体中传播的理论以及熔体速度边界层理论出发,研究了温度脉冲宽度与温度波的频率、波长对BBO熔体的穿透深度之间的关系;讨论了在一定转速下为不使温度波穿透边界层到达生长界面所容许的温度脉冲宽度,从而为BBO晶体的生长提供了依
3)interface growth界面生长
1.A method,homogeneous reaction and interface growth,has been used to fabricate nano-materials.采用均相反应界面生长法成功地制备了多种形貌的纳米铜,讨论了界面生长法制备纳米粒子的机理,考察了界面生长及反应温度的改变对产物形貌的影响。
4)plane interface growth平界面生长
1.The critical velocity of plane interface growth of MnSb/Sb rod eutectic (fibrous composite) is experimentally obtained by directional solidification technique.用定向凝固法揭示了MnSb/Sb棒状共晶 (纤维复合材料 )平界面生长条件。
5)growth sector生长区界面
1.It is found that the main defects are ferroelastic domains, antiphase domains, growth layers, growth sectors and dislocations.这些缺陷是铁弹畴、反相畴界、生长层和生长区界面,探讨了它们的成因及其克服办
6)interface growth method界面生长法
1.5 nm diameter oil-soluble sphere nano-copper was prepared by oil-water interface growth method,using copper acetate tetrahydrate as precursor,ascorbic acid as reductant,polyethylene sorbitan monooleate (Tween-85) as modifier,and 1-butanol as growth agent.采用界面生长法,以醋酸铜为母体,抗坏血酸(Vc)为还原剂,吐温-85为修饰剂,正丁醇为生长剂,合成了粒径约15。
延伸阅读
晶体生长界面处的温度边界层晶体生长界面处的温度边界层temperatureboundary layer at crystal growth interface 晶体生长界面处的温度边界层temperatureboundary layer at erystal growth interfaee生长界面前沿温度分布不均匀的流体层。 在具有温度梯度的生长系统中,晶体的生长界面一般是温度为生长温度T。的等温面,流体内的温度高于生长温度。流体中热量传输有两种机制:①由温度梯度存在产生的热扩散(热传导);②在重力场中温度不均匀引起自然对流,以及晶体或增涡旋转产生搅拌所引起的强迫对流的对流传输。精确求解运动流体对温度场的影响是复杂的。引入温度边界层概念,采用温度边界层近似,可以把热量传输的问题简化。在温度边界层厚度击内,热量传输只有热扩散;在边界之外,热传输机制是对流。由于对流的搅拌作用,在边界之外流体温度Tb是均匀的。在边界层内,近似地认为温度分布是线性的。其斜率就是生长界面处的温度梯度(见图)。T‘,(、》二二‘二二‘二‘‘二‘二二T。O占T 温度:芝介层实线是由严格的理论得到的,虚线是作了边界层近似后的温度分布曲线。根据边界层近似有关系式旦工}=鱼丈丝立dZ}二=o务用数值计算方法得到温度边界层厚度 务=1 .6 kl,3夕1,6山一孟12式中k为热扩散系数,。为流体运动粘滞系数,。是晶体旋转角速度。。愈大,则搅拌作用愈强,边界层厚度愈薄。(洪静芬)
