材料学

cái liào xué
  • materials science
材料学材料学
  1. 在材料学领域中,CA法在显微组织形态及其演变规律的模拟上体现出了特有的优越性。

    In materials science , CA is particularly outstanding in simulating the microstructure and its development .

  2. 通过举例论述了SurfaceEvolver在材料学中这三个方面的应用。

    Several examples are present in this paper in order to demonstrate the using of Surface Evolver in materials science research .

  3. 定量结构-性能关系研究(Quantitativestructure-propertyrelationships,简称QSPR)为材料学的重要组成部分。

    QSPR ( Quantitative Structure-Property Relationships ) is an important part of material science .

  4. 通过对网络课件的研究,利用网页开发工具,根据《服装材料学》内容所编写的脚本,制作出具有良好交互功能的基于Web的《服装材料学》远程课件。

    According to the script of clothing material and the study of network courseware , a network courseware for clothing material with well alternate function based on Web has been accomplished .

  5. 目前液晶显示的主流是有源矩阵液晶显示(AM-LCD:ActiveMatrixLiquidCrystalDisplay)。液晶知识涉及多门学科,如化学、电子学、光学、材料学、色度学等。

    At present the Active Matrix Liquid Crystal Display ( AM-LCD ) is the mainstream , which involves the subjects like material , chemistry , electronics , optics and chroma .

  6. 本文在于把Moire技术引进纺织材料学的领域中来。

    The purpose of the article is to introduce " Moire " into the area of mechanics of textile materials .

  7. X射线相位衬度成像对弱吸收物质有着独有的高密度分辨率,在医学、生物学、以及材料学上显示出良好的应用前景。

    X-ray phase contrast imaging always provides high density resolution when images weakly absorbing material , which shows wide prospect of application in many fields such as medicine , biology and material science .

  8. Fe3O4磁流体的制备及模拟试验,涉及表面与胶体化学、磁学、材料学等理论知识。

    The theories and technologies of surface and colloid chemistry , magnetism and material science have been used in the preparation and simulation experiment of Fe_3O_4 magnetic fluid .

  9. 聚合物网络液晶显示器(PNLCD,PolymerNetworkLiquidCrystalDisplay)是一种高精度和高可靠性的微电子设备,它涉及光学、计算机控制、材料学等诸多科学技术领域。

    Polymer Network Liquid Crystal Display ( PNLCD ) is a kind of micro-electronic equipment with high precision and reliability . And it relates to the sciences and technologies in such fields as optics , computer control and materials science .

  10. 第一章介绍了计算材料学及其国内外研究进展,第一性原理计算方法在材料科学中的应用近况;还介绍了TiO2材料的基本结构、性能及其应用。

    The first chapter introduces the computational materials science and its research progress , the recent application of the first principle calculation method in materials science ; also describes the basic structure , performance of TiO2 and its applications .

  11. 六方介孔硅HMS由于优良的特性成为近年来材料学领域研究的热点。

    The research of hexagonal mesoporous silica ( HMS ) has become a hot point in the field of materials in recent years because of its excellent characteristics .

  12. 从分析锯切对金刚石圆锯片胎体性能的要求出发,根据金属材料学的基本理论,确定了提高胎体机械性能的微量元素之后,试验研究了胎体主要成分WC、Fe/Ni、663-Cu;

    According to the cutting requirements for matrix of diamond saw blade and basic principle of metal material , the experiment on the effect of the basic elements of matrix on its comprehensive performance was conducted after the added reinforcing elements were determined .

  13. 当前,原子力显微镜(AFM)在微笑电子学、微机械学和新型材料学、电磁学、化学和生物医学以及纳米制造和纳米操作等领域具有广泛的应用。

    At present , the atomic force microscope ( AFM ) has been widely used in many fileds such as microelectronics , micromechanics new material science , electro - magnetism , chemistry , biological medicine , nanotechnology , nano-fabrication and nano-operational .

  14. 本文运用材料学、力学和化学的有关理论,通过动量、能量、质量守恒原理,建立了描述RFI成型过程中树脂流动和固化阶段的数学模型。

    This investigation developed a two-dimensional resin film infusion process simulation model based on the material science , mechanics and chemistry science , using conversation of momentum , energy and mass equation and cure kinetics equation .

  15. 自20世纪70年代以来,表面增强拉曼光谱(SERS)由于其极高表面检测灵敏度的优势而在表面化学、分析化学、电化学、生物化学和材料学等领域得到了广泛的应用。

    Since 1970s , surface-enhanced Raman spectroscopy ( SERS ) has been applied widely in surface science , analytical science , electrochemistry , biochemistry and materials for its high detection sensitivity . The SERS effect depends not only on the property science due to its extremely high sensitivity .

  16. 第四纪多孔凝灰岩的发现及其矿物材料学意义

    Discovery of Quaternary porous tuff and its significance in mineral materials

  17. 计算材料学的一个新领域&非平衡晶界偏聚动力学计算

    A New Field in Material Calculation-Kinetics Calculation of Non-equilibrium Grain-boundary Segragation

  18. 生物材料学作为一门新兴的学科,发展迅速。

    As a new branch of learning , biomaterial develops rapidly .

  19. 环境材料学的兴起对汽车工业用钢材发展的影响

    Impact of Eco-materials on Development of Steels for Automobile Industry

  20. 不同类型椎间融合器的材料学特征及其临床应用效果

    Material characteristics and clinical effect of different intervertebral fusion cages

  21. 材料学中微观结构领域的计算方法

    The Computation Methods in Micro Structure of the Material Science

  22. 服装产品数据管理《服装材料学》教学方法和考核模式改革探讨

    APPAREL PRODUCT DATA MANAGEMENT The Exploration Of Teaching Reform Over Clothing Materials

  23. 对广大的材料学工作者来说,此方法是很有帮助的。

    For broad materials scientists , the current method is very helpful .

  24. 在工程材料学课程中培养学生工程意识

    Foster the Students ′ Engineering Consciousness in the Teaching of Engineering Materials

  25. 有限元方法在贵金属材料学中的应用

    Application of Finite Element Method in Precious Metals Materials Science

  26. 逾渗模型在计算材料学中的研究进展

    Research Progress of Percolation Model in Computational Materials Science

  27. 谈服装材料学知识转化为能力的教学方法

    On the Teaching Methods of Turning Knowledge into Ability in Garment Materials Learning

  28. 便携式负压吸引装置的设计及材料学特点

    Design and material characteristics of hand-held emergency suction apparatus

  29. 化学、材料学或相关专业,本科及以上学历。

    BS or above degree in chemical engineering or related from recognized university .

  30. 我并不太知道我为什么选修课要选材料学。

    I have no idea why I chose technology .