copper matrix

英 [ˈkɒpə(r) ˈmeɪtrɪks] 美 [ˈkɑːpər ˈmeɪtrɪks]

铜质型片

医学



双语例句

  1. The friction and wear properties of particle-reinforced copper matrix composites fabricated by powder metallurgy, were measured by friction tester and1:1 test bench, respectively.
    采用粉末冶金技术制备铜基陶瓷强化材料,通过定速摩擦实验机和1:1制动实验台测试了材料在多种摩擦条件下摩擦磨损性能的变化。
  2. Study on the Fabrication and Wear Properties of Copper Matrix Composite Reinforced by In-situ Al_2O_3 Particle
    原位Al2O3颗粒增强铜基复合材料的制备及其耐磨性能研究
  3. The reasons for failure of electrodes during spot welding and the latest research on copper matrix composites for electrodes are summarized in the paper.
    概述了电阻点焊过程中点焊电极的失效原因及铜基复合材料点焊电极的研究进展。
  4. In the conditions of no high need for mechanical properties, it can substitute for Copper Matrix Inlaid Self-Lubricating material.
    在机械性能要求不高的场合,可以替代铜基镶嵌自润滑材料使用。
  5. Tribology Performance of Copper Matrix with Graphite Self-lubricating Powder Metallurgy Materials with and without Current
    有无电流条件下石墨自润滑铜基粉末冶金材料的摩擦磨损行为研究
  6. Preparation of In-Situ TiC Particle Dispersion-Strengthened Copper Matrix Composites
    原位生成TiC制备弥散强化铜材料
  7. Preparation and Study on the Properties of CF/ copper Matrix and CuO Nanowire/ CF Composites
    碳纤维/铜和CuO纳米线/碳纤维复合材料的制备及性能研究
  8. The results show that AlN and Al_2O_3 dispersed in copper matrix can refine the grain size.
    结果表明,在烧结过程中,弥散分布在铜基体中的AlN和Al2O3纳米颗粒细化了晶粒;
  9. Effects of Rare-earth Elements and Zinc on Copper Matrix Slider Made by Powder Metallurgy
    稀土与锌对铜基粉末冶金滑板的影响
  10. A research on tensile strength and impact toughness of copper matrix pantograph slider material
    铜基受电弓滑板材料抗拉强度和冲击韧性研究
  11. The characteristic of the copper matrix powder metallurgy friction material under the compress impact was studied.
    研究了铜基粉末冶金摩擦材料的压缩冲击性能。测得该材料抗压强度为18.8kN;
  12. Study on Copper Matrix Composite Reinforced with Alumina Particles
    氧化铝颗粒弥散强化铜基复合材料的研究
  13. In this paper, the surface treatment of carbon fiber and the research progress on the fabrication and properties of the carbon fiber reinforced copper matrix composites are introduced.
    介绍了碳纤维的表面处理及碳纤维增强铜基复合材料的制备工艺与性能的研究进展。
  14. An aluminizing internal oxidation technique had been used in fabricating Al 2O 3 surface dispersion copper matrix conductive material. The aluminum concentration distribution in aluminized layer, microstructure and some properties of surface dispersion layer were studied.
    用渗铝内氧化技术制备了Al2O3表面弥散铜基导电材料,研究了渗铝层的铝浓度分布和表面弥散层的显微组织及有关性能。
  15. The material of copper matrix composites has won a comprehensive application future.
    弥散强化铜基复合材料以其优异的性能而有着广泛的应用前景。
  16. Interface and Conductivity of Pure Copper Matrix Cast Composite Reinforced by Steel Grain
    钢颗粒增强铜基复合材料的界面和传导性
  17. Copper Matrix Composites with High Conductivity and Wear Resistance
    高导电耐磨铜基复合材料的研究
  18. Resistivity and abrasion performance of copper matrix pantograph slider samples
    铜基受电弓滑板试件电阻率和磨损性能研究
  19. A new idea to fabricate copper matrix composites strengthened by in-situ Al2O3 particulate is adopted.
    采用原位反应的方法成功制备了Al2O3颗粒增强铜基复合材料。
  20. The results show that WC particles obstruct the volume diffusion of copper matrix;
    结果表明,WC粒子阻碍着烧结时铜基体体积扩散;
  21. Research on the copper coating graphite Copper Matrix Composites
    镀铜石墨-铜基复合材料组织与性能研究
  22. These transformations make copper matrix get purified fast, and the electrical resistance drops rapidly.
    这些过程的发生使铜基体得到快速净化,电阻率急剧下降。
  23. The tribological and wear behavior of aluminum matrix composites and copper matrix powder metallurgy is debated in the paper based on the experiment between the two materials. The friction coefficient and the friction stability of the two materials demonstrate they are appropriate brake materials for high-speed train.
    通过铝基复合材料对铜基粉末冶金材料之间的摩擦试验,讨论了两种材料之间的摩擦磨损特性,说明两种材料的摩擦因数和摩擦稳定性符合高速列车对制动材料的要求。
  24. Effect of SiC Particulate Reinforcement on the Wear Transition of Copper Matrix Composite
    SiC颗粒增强物对铜基复合材料磨损行为转变的影响
  25. It is of great significances in theory and practice to develop the new type of wear-resistant copper matrix composites and to enrich the tribological research.
    本论文的研究结果对研制开发新型耐磨铜基复合材料和丰富材料摩擦学有着重要的理论和现实意义。
  26. To settle the wetting quality between carbon fibers and copper matrix, several solutions were used to treat with the surface of carbon fibers.
    为解决碳纤维与基体间的润湿性问题,本研究采用多种镀液对碳纤维进行表面镀铜处理。
  27. The main results are: 1. To improve the interface performance between the carbon nanotubes and copper matrix, carbon nanotubes coated copper are prepared by chemical plating method. 2.
    实验采用化学镀方法在碳纳米管表面包覆较完整的铜层,改善了碳纳米管与铜基体之间的界面结合性能。
  28. The results demonstrated that the ND particles were homogeneously dispersed in the copper matrix.
    结果表明,铜基体上分布着单分散的纳米金刚石颗粒,颗粒分布比较均匀。
  29. Seeking new strengthening particulates which have both high conductivity and high mechanical properties is significant for the study and application of copper matrix composites.
    寻求既具有高导电导热性又具有良好力学性能的新型增强颗粒,对于铜基复合材料的研究和应用具有非常重要的意义。