chromizing
简明释义
n. 渗铬处理,铬化处理
英英释义
单词用法
铬化钢 | |
铬化涂层 | |
高温铬化 | |
金属的铬化 | |
铬化技术 | |
铬化设备 |
同义词
反义词
| 去铬处理 | The process of dechromizing is used to remove chromium from the surface of metals. | 去铬处理的过程用于去除金属表面的铬。 | |
| 氧化 | Oxidizing agents can cause metals to lose their protective chrome layer. | 氧化剂可能导致金属失去其保护性铬层。 |
例句
1.Plasma chromizing was achieved on Q235 steel and 45 steel surface and formed high chrome layer.
采用双层辉光等离子渗金属技术先在Q235钢和45钢表面渗入元素铬,形成高铬合金层;
2.The results show that a compound layer with good wear-resistance and corrosion resistance can be gained in 304 austenitic steel by chromizing sbusequent solid soluti…
结果表明,304奥氏体不锈钢经渗铬固溶渗氮复合处理后可获得性能优良的复合渗层,且耐磨、耐腐蚀。
3.The results show that a compound layer with good wear-resistance and corrosion resistance can be gained in 304 austenitic steel by chromizing sbusequent solid soluti…
结果表明,304奥氏体不锈钢经渗铬固溶渗氮复合处理后可获得性能优良的复合渗层,且耐磨、耐腐蚀。
4.It was investigated that chromizing in borax salt bath and melting hydrochloride.
研究了硼砂盐浴渗铬和氯系熔盐渗铬。
5.It is shown that a excellent chromized zone morphology is obtained and the chromizing rate is raised through...
结果表明辉光离子渗铬可获得良好的渗层组织并明显加速渗铬过程。
6.The wear resistance of hard alloy (YG14) and boronizing layer, boron-chromizing layer for steel 45 was studied.
研究了硬质合金(YG14)和45钢渗硼层、硼铬共渗层的耐磨性。
7.The results show that the addition of rare earth elements can increase the depth of the chromizing layer and hardnesss of the T10 steel surface.
结果表明,稀土能增加渗铬层深度,有助于提高渗氮层的表面硬度。
8.Under controlling technique factors, we have produced high quality chromizing cast-infiltration layer.
通过控制工艺因素,在铸铁件表面获得了质量完好的铸渗层。
9.Immediate quenching and tempering process of steel T10 after low temperature salt bath chromizing was studied.
研究了T10钢在低温盐浴渗铬后直接淬火并回火工艺。
10.By observing and analyzing the casting test piece, we have found a metallurgical integrating layer that is made up of chromizing cast-iron alloy layer.
我们还对铸渗质量较好的铸渗试件进行了观察和分析,发现铸铁渗铬合金层与母材结合良好,呈冶金结合。
11.The process of chromizing is essential for enhancing the corrosion resistance of steel components.
铬化过程对于增强钢部件的耐腐蚀性至关重要。
12.After chromizing, the surface hardness of the tool increased significantly.
经过铬化后,工具的表面硬度显著提高。
13.Manufacturers often use chromizing to improve the wear resistance of industrial machinery.
制造商通常使用铬化来提高工业机械的耐磨性。
14.The chromizing technique can be applied to various metals, including aluminum and titanium.
铬化技术可以应用于多种金属,包括铝和钛。
15.By chromizing the engine parts, we can extend their lifespan under extreme conditions.
通过铬化发动机部件,我们可以延长它们在极端条件下的使用寿命。
作文
Chromizing is a process that involves the diffusion of chromium into the surface of a metal to enhance its properties. This technique is particularly beneficial for improving corrosion resistance and wear resistance, making it an essential process in various industrial applications. Metals such as steel and iron are often subjected to this treatment, allowing them to withstand harsher environments and extend their service life. The process of chromizing (铬化处理) is typically performed at high temperatures, where chromium is either introduced in the form of a gas or as a powder mixed with a suitable carrier. Once the chromium diffuses into the substrate, it forms a hard, protective layer that significantly improves the metal's performance.One of the primary advantages of chromizing (铬化处理) is its ability to enhance the wear resistance of components that are subject to friction and abrasion. In industries such as automotive and aerospace, where parts are constantly in motion and under stress, having a surface that can resist wear is crucial. For example, engine components, gears, and bearings can benefit immensely from chromizing (铬化处理), leading to reduced maintenance costs and improved reliability.Moreover, chromizing (铬化处理) also plays a significant role in preventing corrosion. Many metals are prone to rust and degradation when exposed to moisture and various chemicals. By applying a chromizing (铬化处理) treatment, the surface becomes less reactive and more resistant to environmental factors that lead to corrosion. This is particularly important in industries such as oil and gas, marine, and chemical processing, where equipment is often exposed to harsh conditions.In addition to its practical benefits, the chromizing (铬化处理) process is also relatively cost-effective compared to other surface treatment methods. While some treatments may require expensive materials or complex processes, chromizing (铬化处理) can be performed using readily available chromium compounds. This accessibility makes it an attractive option for manufacturers looking to improve the performance of their products without incurring prohibitive costs.Furthermore, the chromizing (铬化处理) process can be applied to various shapes and sizes of components, making it versatile for different applications. Whether it is a small fastener or a large industrial part, chromizing (铬化处理) can be tailored to meet specific requirements, ensuring that each component receives the appropriate level of treatment.In conclusion, chromizing (铬化处理) is a valuable surface treatment process that enhances the durability and longevity of metals. By improving wear resistance and corrosion resistance, it allows components to perform better in demanding environments. As industries continue to seek ways to optimize performance and reduce costs, the importance of chromizing (铬化处理) will only grow, solidifying its place as a key technology in modern manufacturing. Understanding the principles and benefits of chromizing (铬化处理) is essential for anyone involved in material science or engineering, as it opens up new possibilities for innovation and efficiency in various fields.
