片语

surface coating modification表面包覆改性

surface grafted modification表面接枝改性

surface biological modification表面生物化

surface lubrication modification表面润滑改性

surface oxidation modification表面氧化改性

surface laser modification表面激光改性

surface hydrophilicity modification表面亲水化改性

alloy surface s modification合金表面改性

surface hydrophobic modification疏水表面改性

英汉例句

• objective to study the target binding of chitosan nanoparticles with glycyrrhizin surface modification to hepatic parenchymal cells in vitro.

  目的研究甘草酸表面修饰壳聚糖纳米粒对肝实质细胞的靶向结合作用。

• on the basis of using reasonable material, surface modification to normal die & mold material is an optimal process method.

  在合理选材基础上，对普通模具材料进行表面改性是比较理想的工艺方法。

• the surface modification of ultra-high modulus polyethylene(uhmpe)fiber was conducted by atmospheric pressure plasma jet(appj)treatment.

  利用常压等离子射流（appj）方法对超高模量聚乙烯（u hmpe）纤维进行表面改性处理。

• the progress of preparation method and surface modification of monodisperse magnetic iron oxide nanoparticles, as well as their application in the magnetic targeted drug are reviewed.

  本文综述了单分散磁性氧化铁纳米粒子的主要制备方法、表面修饰以及在生物医学靶向药物方面的应用研究进展。

• research of the surface modification for two kinds of silicon carbide mirror in common use.

  两种常用碳化硅反射镜基底表面改性的研究。

• results this paper summarizes surface modification methods for metal materials, as well comments on all kinds of methods.

  结果总结了当前骨科金属材料表面改性的方法，介绍了各类方法的优缺点。

• the surface modification has been studied on an filler of solid propellants in this paper, by using silane and titanate coupling agents.

  本文采用硅烷类和钛酸酯类偶联剂对固体推进剂中的硝酸铵填料进行表面改性。

• results will be outlined pointing out to what extent the application of gas phase fluorination is suitable for a surface modification of textile materials.

  本文着重介绍了气相氟化作用在纺织材料表面改性上的应用现状。

• as an important surface modification method, laser cladding has drawn more and more attention in recent years.

  激光熔覆作为表面改性和快速成形的一种重要方法，得到越来越多的关注。

• this paper introduces the interaction between biomaterials and cells and several surface modification methods for biomaterials.

  本文对生物材料与细胞相互作用及表面修饰的技术方法进行了介绍。

• surface modification can be used to improve wear-corrosion resistance and biocompatibility of titanium alloy implants in body.

  在生物医学领域中，表面改性可以改善钛植入体的耐磨性、抗蚀性和生物相容性。

• a process of surface modification incorporated with the ultrafine grinding of powders by impinging stream method is presented.

  采用撞击流技术，实现粉体的超细粉碎与表面有机化改性工艺于一体。

• surface modification of materials by means of high-energy laser beam, electron beam and ion beam technology are realized through changing composition and structure of the material surface.

  激光束、电子束、离子束三种高能束流技术对材料表面改性是通过改变材料表面的成分或结构实现的。

• surface modification treatment of pure magnesium by solid diffusion zinc treatment is conducted, and the microstructure, microhardness and corrosion behavior of alloying layer are investigated.

  采用固态扩渗锌粉方法，对纯镁进行表面合金化改性工艺处理，研究合金层组织结构、硬度及其腐蚀行为。

• in this paper, the carbonization technology and surface modification were studied systematically.

  本文对其碳化法制备工艺及表面改性进行了较为系统的研究。

• conclusion: surface modification effectively altered the uptake of cyclosporine a loaded polylactic acid nanoparticles by cells in vitro and the body distribution in vivo .

  结论：表面修饰可以显着改变载环孢菌素a聚乳酸纳米粒的体外细胞摄取和体内在网状内皮系统的组织分布。

• based on the specifications of a certain inertial element, the preparation craft and surface modification of high purity alumina ceramic were presented in detail.

  本文结合某惯性元件的技术要求，讨论了高纯氧化铝陶瓷的性能、制备工艺和表面改性技术。

• therefore, the activation of the surface modification of polytetrafluoroethylene, mostly by plasma processing method, convenient operation, significantly reduce the wastewater treatment.

  因此，目前对于聚四氟乙烯表面的活化处理，大多采用等离子体处理法进行，操作方便，还明显减少了废水处理。

• in the area of manufacturing, lasers are used for drilling, cutting, joining, hardening, surface modification and micromachining.

  在生产领域，激光可以用来鉆孔、切割、连接、硬化以及进行表面改性和微加工。

• and discussed ceramic materials modification by surface modification processes such as thermal spraying, laser, ion implantation and other non-equilibrium treatments.

  并讨论了表面改性技术如热喷涂、激光、离子注入等非平衡处理技术对陶瓷材料的改性。

• surface modification treatment on pure magnesium was conducted at 445 ℃ by vacuum solid diffusion aluminizing.

  采用真空扩散渗铝的方法，在445℃对纯镁进行了表面合金化改性处理。

• surface modification of powder is a important artifice, also is the magnitude content of new materials, new crafts and new product exploder.

  粉体表面改性是材料制备过程工程的重要手段，也是新材料、新工艺和新产品开发的重要内容。