这两种合金可以应用为耐磨、耐蚀材料。
The two alloys can be used as wear-resistant and corrosion-resistant materials.
工程陶瓷因为具有极高的硬度、良好的耐磨耐蚀性和很高的脆性,使其成为难加工材料。
Engineering ceramic materials are difficult to machine because of their outstanding properties, such as high hardness, high wear resistance, high erosion resistance and high brittleness.
它的喷涂材料丰富,能赋予工件表面以耐磨、耐蚀、抗高温等多种功能,并且工艺及操作简便。
The spraying material is abundant and it endows workpieces with wear-resisting, anticorrosive, temperature-resisting capabilities and so on.
金属及其合金表面进行陶瓷化可以改善金属基体的硬度低、耐磨耐蚀性差、可加工性差等不足,并且能保证原金属材料的使用性能。
The ceramic coatings on the surface of some metals can improve the shortcomings of low microhardness, poorly corrosion and wear resistance, in the same time maintain the property of the metals.
金属材料表面经氧化和着色后,可提高其表面硬度、耐蚀性、 耐磨性、耐光性和增加表面色彩。
Thesurface hardness, corrosion resistance, abrasion resistance and light fastness as well as the surface colour of metals can be improved through oxidizing and Colouring processing.
利用激光熔覆技术在廉价的低碳钢表面制备陶瓷复合涂层,可以获得高硬度、耐磨、耐蚀的复合材料。
Utilize laser cladding prepare ceramic compound in the coating in low-priced low carbon steel surface, can obtain high hardness, wear-resisting, anti-corrosion composite.
镁合金是一种极具发展潜力的轻质结构材料,但镁合金的耐蚀、耐磨性较差成为阻碍镁合金推广应用的重要问题。
Magnesium alloys are promising structural materials because of their lightweight. However the wide application of magnesium alloys is limited due to inferior corrosion and wear resistance.
为了提高材料的耐磨、耐蚀性能,并降低生产成本,开发了粉末复合电弧喷涂技术。
For improving wear resistance and corrosion resistance of materials, and decreasing the cost, Arc spray technology combined by powder was developed.
超细氧化铝因其具有高熔点和高硬度、良好的耐磨、耐蚀、耐热及绝缘等性能被广泛用于制作结构和功能材料。
The super-fine aluminum hydroxide is an important green flame retardant inorganic material with multi-function of retarding, suppressing smoke and filling.
这个结果说明,通过熔滴涂覆技术,可以制备成分可控的涂层,为利用现有耐蚀耐磨材料进行镁合金的表面防护提供了可能性。
The results demonstrate that droplet coating which can prepare the composition-controllable coating is a promising way for magnesium surface protection by the available corrosion resistant materials.
这个结果说明,通过熔滴涂覆技术,可以制备成分可控的涂层,为利用现有耐蚀耐磨材料进行镁合金的表面防护提供了可能性。
The results demonstrate that droplet coating which can prepare the composition-controllable coating is a promising way for magnesium surface protection by the available corrosion resistant materials.
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