展望了纳米金属粉末在表面工程中的应用前景。
The prospect for the application of metal nano-powders to surface engineering was predicted.
讨论了爆炸焊接、爆炸复合材料与表面工程的关系。
The relationship between detonation welding, detonation composite materials and surface engineering was discussed in this paper.
等离子体表面处理是今后表面工程的一个发展趋势。
The surface treatment by plasma is a developing trend of surface engineering in the future.
热等离子体喷涂技术是现代表面工程的重要手段之一。
Thermal plasma spraying is one of the important technologies in modern surface engineering.
电刷镀技术是表面工程和再制造工程技术的重要组成部分。
Brush plating is an important part of surface and remanufacturing engineering.
因而,设计者在结构设计时将有许多表面工程技术可以选择。
Designers thus have many surface engineering technologies to select from in the design of components.
特别探讨了利用表面工程技术实现零件表面绿色加工的技术可行性。
Specially, the feasibility that part surface green machining is implemented by the surface engineering technology is discussed.
纳米表面工程自2000年产生后,在国内外产生了广泛而积极的影响。
The broad influences have come into being since nano-surface engineering was brought forward in 2000.
本文介绍了老旧机床再制造的过程和表面工程技术在机床再制造中的应用。
The remanufacturing process of used or waste machine tools and the application of several kinds of surface engineering technologies are induced in this paper.
中国洗净工程技术合作协会会员单位、中国表面工程及防锈协会会员单位。
We are the company member of China cleaning Association and the company member of China Surface Engineering and Anti-rust Association.
利用电沉积表面工程技术可以有效地降低材料的磨损与腐蚀,延长工件使用寿命。
Optimum application of electrodeposition surface engineering techniques can considerably decrease the wear and corrosion loss, and hence effectively prolong the serving life of components.
这种技术还是一种先进的表面工程技术,这类材料也是一类应用广泛的表面工程材料。
This technique is also an advanced surface engineering technique, whose product is also a kind of widely used surface engineering material.
以生物材料表面工程的相关理论为基础,总结出人工植入体表面设计的四种基本思路。
Summarized four kinds of artificial implants surface design methods based on the related theories of biomaterial surface engineering.
热喷涂技术是表面工程学的重要组成部分,它是一种材料表面强化和表面改性的新技术。
Thermal spraying technology is an important part of surface engineering science. It is a new technology of material aggrandizement and surface character changing.
表面工程在发动机再制造中的应用,可使发动机的旧件利用率由72.3%提高到90%。
The application of surface techniques in remanufacturing engineering could improve the utilization rato of old engine parts from 72.3 % to 90 %.
并指出表面工程以及以表面工程为主要技术基础的再制造工程在我国具有广阔的应用前景。
Remanufacture engineering based on surface engineering is the new industry. Green surface engineering and remanufacture engineering will be extensive application prospects in our country.
但是,怎样为一种特定的应用选择一种最优化的表面工程方法对设计者来说又是一种挑战。
However, it also presents challenges to designers to select an optimal surface engineering process for a specific application.
表面工程是针对零件表面失效的形式、特征和机理,综合运用各种表面技术进行防护的工程。
Based on the knowledge of formation, characteristic, and mechanism of component's failure, surface engineering is extensively used to protect component surface by different of surface technology.
激光表面工程是在高能激光束流的作用下于金属表面形成一熔化的薄层而在工业上广为应用。
And laser surface engineering has been widely applied in industrial processes due to inducing melting of a thin layer on metal surface when operated at higher intensity.
旧发动机中62 %的失效零件可以运用表面工程技术进行修复,修复后的表面性能优于新品。
By using surface engineering techniques, about 62 % waste parts in old engines could be repaired, and the quality of remanufactured engines became superior to the original products.
但是对于建筑废弃物的二次利用并不是一项简单的表面工程,牵涉到社会、经济和环境等各个层面的问题。
But the reusing of construction waste is not a simple project, and it involves the problems of social, economic and environmental aspects instead.
细胞表面工程,又称GPI锚定蛋白转移法,是一种不依赖基因转移而能够在细胞膜上表达新蛋白的有效方法。
Cell-surface engineering technique, also named as GPI-anchored protein transfer, has become an attractive strategy to express new proteins on cell membranes without gene transfer.
介绍了各种表面工程技术的原理和方法,综述了有关表面工程技术在车用发动机制造和维修领域的研究和应用进展。
The principle and methods of various surface engineering technologies are introduced, and its study progress and application on manufactured and maintenance of vehicle engine is summarized.
表面工程具有广泛的功能性、潜在的创新性、环境的保护性、很强的实用性和巨大的增效性,因而受到各行各业的重视。
Surface engineering has a wide range of functionality, the potential innovation, environ - mental protection, strong practicality and great efficiency so as to get attention all walks of industries.
对于可促进组织生长的聚合物骨架材料的结构设计,必须同时兼顾材料的表面工程和结构工程,二者必不可少且不可分割。
Both the surface engineering and structure engineering are necessary and neither of them can be negligible to the design of polymer skeletal materials for tissue engineering.
综述了碳纳米管的结构、制备方法及其潜在的应用领域。着重讨论了碳纳米管在表面工程中的应用方面的研究现状及其进展。
Structure, synthesis methods and the potential application of carbon nanotubes are reviewed in this paper. And its application status and development on the surface engineering are emphasized.
综述了碳纳米管的结构、制备方法及其潜在的应用领域。着重讨论了碳纳米管在表面工程中的应用方面的研究现状及其进展。
Structure, synthesis methods and the potential application of carbon nanotubes are reviewed in this paper. And its application status and development on the surface engineering are emphasized.
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