aluminise
简明释义
英[əˈluːməˌnaɪz]美[əˈluːməˌnaɪz]
v. 镀铝于(等于 aluminize)
第 三 人 称 单 数 a l u m i n i s e s
现 在 分 词 a l u m i n i s i n g
过 去 式 a l u m i n i s e d
过 去 分 词 a l u m i n i s e d
英英释义
To coat or treat a surface with aluminum or an aluminum compound to enhance its resistance to corrosion and improve its appearance. | 用铝或铝化合物涂覆或处理表面,以增强其耐腐蚀性并改善外观。 |
单词用法
同义词
| 铝涂层 | The aluminum coating on the metal surface provides corrosion resistance. | 金属表面的铝涂层提供了耐腐蚀性。 | |
| 铝化 | Aluminization is often used in high-temperature applications to enhance durability. | 铝化常用于高温应用,以增强耐久性。 |
反义词
| 降解 | 如果不进行适当维护,金属可能会随着时间的推移而降解。 | ||
| 腐蚀 | 酸可以腐蚀金属表面。 |
例句
1.To prevent oxidation, it's common to aluminise steel parts used in harsh environments.
为了防止氧化,通常会对在恶劣环境中使用的钢部件进行铝化。
2.The engineers decided to aluminise the metal components to improve their resistance to corrosion.
工程师们决定铝化金属部件,以提高它们的抗腐蚀能力。
3.In order to enhance the thermal properties, they opted to aluminise the surface of the heat shield.
为了增强热性能,他们选择了铝化热屏的表面。
4.The aircraft's wings were aluminised to reduce weight and increase durability.
飞机的机翼被铝化以减少重量并增加耐用性。
5.The automotive industry often uses coatings that aluminise parts for better performance.
汽车工业经常使用涂层来铝化部件,以获得更好的性能。
作文
In the modern world, where technology and innovation are at the forefront of every industry, the importance of materials science cannot be overstated. One fascinating process that has gained attention in recent years is the ability to aluminise (铝化) various surfaces. This technique involves the application of aluminum to a substrate, enhancing its properties and extending its lifespan. The process of aluminise (铝化) is particularly significant in industries such as aerospace, automotive, and construction, where durability and resistance to corrosion are paramount.When metals are exposed to harsh environments, they often succumb to corrosion, which can lead to structural failures and increased maintenance costs. By employing the process of aluminise (铝化), manufacturers can create a protective layer that not only improves the aesthetic appeal of the metal but also provides a barrier against environmental factors. This is achieved through various methods, including thermal spraying, chemical vapor deposition, and hot-dip aluminizing.The aerospace industry has been one of the primary beneficiaries of aluminise (铝化) techniques. Aircraft components are subjected to extreme temperatures and pressures, making them vulnerable to wear and tear. By aluminise (铝化) components such as turbine blades and exhaust systems, manufacturers can significantly enhance their performance and longevity. The aluminum coating acts as a thermal barrier, protecting the underlying metal from oxidation and other forms of degradation.Similarly, in the automotive sector, the use of aluminise (铝化) coatings has become increasingly popular. Car manufacturers are constantly seeking ways to reduce weight while maintaining strength and safety. The application of aluminum coatings allows for lighter vehicles that do not compromise on durability. Additionally, the aluminise (铝化) process helps to prevent rust and corrosion, which are common issues faced by vehicles exposed to road salt and moisture.In construction, aluminise (铝化) treatments are utilized to protect structural steel and other metal components from the elements. Buildings and bridges are significant investments, and ensuring their longevity is crucial. By applying an aluminum coating, construction companies can safeguard these structures against corrosion, thereby reducing maintenance costs and extending their life span.Moreover, the environmental benefits of aluminise (铝化) processes cannot be overlooked. By increasing the lifespan of materials, we can reduce waste and the need for frequent replacements. This aligns with global efforts to promote sustainability and responsible resource management. As industries continue to innovate, the adoption of aluminise (铝化) techniques will likely play a crucial role in developing more sustainable practices.In conclusion, the process of aluminise (铝化) serves as a testament to the advancements in materials science and engineering. Its applications across various industries highlight its significance in improving the performance and durability of metal components. As we move forward into an era that prioritizes efficiency and sustainability, the role of aluminise (铝化) processes will undoubtedly become even more critical. Understanding and embracing this technology will enable us to build a stronger, more resilient future, where materials are not only functional but also environmentally friendly.
