nickelize
简明释义
vt. 镀镍于……
第 三 人 称 单 数 n i c k e l i z e s
现 在 分 词 n i c k e l i z i n g
过 去 式 n i c k e l i z e d
过 去 分 词 n i c k e l i z e d
英英释义
To coat or treat a surface with nickel, typically to enhance its corrosion resistance and improve appearance. | 用镍涂覆或处理表面,通常是为了增强其耐腐蚀性和改善外观。 |
单词用法
同义词
反义词
| 拆解 | The technician had to dismantle the old machine before replacing it. | 技术人员在更换之前必须拆解旧机器。 | |
| 剥离 | They decided to strip the paint off the walls before repainting. | 他们决定在重新粉刷之前剥离墙上的油漆。 |
例句
1.The automotive industry often nickelizes components for better wear resistance.
汽车工业通常对部件进行镀镍处理,以获得更好的耐磨性。
2.After the process, the steel was successfully nickelized, enhancing its durability.
经过处理后,钢材成功地镀镍,增强了其耐久性。
3.To prevent rust, it's advisable to nickelize the surface of the equipment.
为了防止生锈,建议对设备表面进行镀镍处理。
4.We need to nickelize the metal parts to ensure they last longer.
我们需要镀镍金属部件以确保它们更耐用。
5.The company decided to nickelize their products to improve corrosion resistance.
公司决定镀镍他们的产品以提高耐腐蚀性。
作文
In the world of metallurgy, the term nickelize refers to the process of applying a layer of nickel onto a surface. This process is crucial in various industries, especially in manufacturing and engineering, where durability and resistance to corrosion are paramount. The nickelize process not only enhances the aesthetic appeal of metal objects but also significantly improves their functional properties. For instance, when machinery components are nickelized, they become more resilient against wear and tear, which ultimately extends their lifespan. The application of nickel can be achieved through several methods, including electroplating and chemical plating. Electroplating involves using electrical current to deposit nickel ions onto a conductive surface. This method is widely used because it allows for precise control over the thickness of the nickel layer. On the other hand, chemical plating, or electroless plating, does not require electricity and is often used for non-conductive materials. Both methods aim to nickelize surfaces to enhance their properties.In addition to its protective qualities, nickel has unique characteristics that make it an ideal choice for coating. It is known for its excellent resistance to oxidation and corrosion, which is why many industries prefer to nickelize their products. For example, in the automotive industry, parts such as bolts and nuts are often nickelized to prevent rusting and ensure longevity. Similarly, in the electronics sector, connectors and circuit boards benefit from a nickel coating, which helps to improve conductivity and protect against environmental damage.Moreover, the nickelize process can also contribute to the overall performance of products. In the aerospace industry, components that have been nickelized exhibit better thermal stability and can withstand extreme conditions. This makes them suitable for use in aircraft engines and other critical systems where failure is not an option. As technology advances, the demand for nickelized components continues to grow, leading to innovations in the techniques used for nickel application.However, it is essential to consider the environmental impact of the nickelize process. Nickel mining and processing can lead to pollution and ecological damage if not managed properly. Therefore, many companies are now seeking sustainable alternatives and practices to minimize their carbon footprint while still reaping the benefits of nickel coatings. This shift towards sustainability is becoming increasingly important as industries strive to meet regulatory standards and consumer expectations.In conclusion, the term nickelize encapsulates a vital process in metallurgy that enhances the durability, functionality, and aesthetic appeal of various products. From automotive parts to electronic components, the advantages of nickelized surfaces are undeniable. As industries continue to evolve, the methods and applications of nickelize will likely expand, paving the way for more innovative solutions that balance performance with environmental responsibility.
在冶金学的世界中,术语nickelize指的是在表面上涂覆一层镍的过程。这个过程在各个行业中都至关重要,尤其是在制造和工程领域,在这些领域中,耐用性和抗腐蚀性至关重要。nickelize过程不仅增强了金属物体的美观性,而且显著改善了它们的功能特性。例如,当机械部件被nickelize时,它们变得更能抵御磨损,从而最终延长了使用寿命。镍的应用可以通过几种方法实现,包括电镀和化学镀。电镀涉及使用电流将镍离子沉积到导电表面。这种方法广泛使用,因为它允许对镍层的厚度进行精确控制。另一方面,化学镀或自发电镀不需要电力,通常用于非导电材料。两种方法的目标都是nickelize表面以增强其性能。除了保护特性外,镍还具有独特的特性,使其成为涂层的理想选择。众所周知,它对氧化和腐蚀具有优异的抵抗力,这就是为什么许多行业更愿意nickelize他们的产品。例如,在汽车行业,像螺栓和螺母这样的零件通常被nickelize以防止生锈并确保耐久性。同样,在电子行业,连接器和电路板受益于镍涂层,这有助于提高导电性并保护其免受环境损害。此外,nickelize过程还可以提高产品的整体性能。在航空航天行业,经过nickelize处理的组件表现出更好的热稳定性,并且能够承受极端条件。这使得它们适合用于飞机发动机和其他关键系统,其中失败不是一个选项。随着技术的进步,对nickelize组件的需求持续增长,导致镍涂层应用技术的创新。然而,必须考虑nickelize过程的环境影响。镍的开采和加工如果管理不当可能导致污染和生态损害。因此,许多公司现在正在寻求可持续的替代方案和实践,以最大限度地减少他们的碳足迹,同时仍然获得镍涂层的好处。这种向可持续性的转变在工业界变得越来越重要,因为各行业努力满足监管标准和消费者期望。总之,术语nickelize概括了冶金学中一个重要的过程,该过程增强了各种产品的耐用性、功能性和美观性。从汽车部件到电子元件,nickelize表面的优势是不可否认的。随着各行业的不断发展,nickelize的方法和应用可能会扩展,为平衡性能与环境责任铺平道路。
