zincifying
简明释义
vt. 镀以锌
第 三 人 称 单 数 z i n c i f i e s
现 在 分 词 z i n c i f y i n g
过 去 式 z i n c i f i e d
过 去 分 词 z i n c i f i e d
英英释义
The process of applying a layer of zinc to a surface, typically for the purpose of corrosion resistance. | 将锌涂覆在表面上的过程,通常是为了防止腐蚀。 |
单词用法
锌化过程 | |
锌化处理 | |
锌化剂 | |
锌化方法 |
同义词
| 镀锌 | 镀锌钢的过程有助于防止生锈。 | ||
| 涂层 | 用锌涂覆金属可以增加其耐用性。 | ||
| 电镀 | Plating is often used to enhance the appearance of metal objects. | 电镀通常用于增强金属物体的外观。 |
反义词
| 去氧化 | The process of deoxidizing metals is essential for maintaining their integrity. | 去氧化金属的过程对于保持其完整性至关重要。 | |
| 腐蚀 | Corroding can lead to significant damage in structures made of iron. | 腐蚀会对铁制结构造成严重损害。 |
例句
1.This paper mainly introduces the general microcomputer control design of the zincifying productive line and some problems about design skill.
本文结合实际工作,着重介绍滚镀锌生产流水线的微型机控制总体设计,以及某些设计技巧。
2.This paper mainly introduces the general microcomputer control design of the zincifying productive line and some problems about design skill.
本文结合实际工作,着重介绍滚镀锌生产流水线的微型机控制总体设计,以及某些设计技巧。
3.The factory specializes in zincifying various components for automotive applications.
该工厂专门从事汽车应用中各种部件的锌化。
4.The zincifying process involves dipping the metal in molten zinc.
该锌化过程涉及将金属浸入熔融锌中。
5.The process of zincifying the metal parts helps prevent corrosion.
对金属部件进行锌化有助于防止腐蚀。
6.After zincifying, the steel structure showed significant resistance to rust.
经过锌化后,钢结构显示出显著的抗锈能力。
7.Before painting, we recommend zincifying the surface to enhance durability.
在喷漆之前,我们建议对表面进行锌化以增强耐用性。
作文
In the world of metallurgy and materials science, processes play a crucial role in enhancing the properties of metals. One such process is zincifying, which refers to the application of a layer of zinc onto a metal surface. This technique is primarily used to protect steel and iron from corrosion, thereby extending their lifespan and maintaining their structural integrity. Corrosion is a significant issue that affects many industries, leading to costly repairs and replacements. The zincifying process provides an effective solution by creating a barrier that prevents moisture and oxygen from reaching the underlying metal.The method of zincifying can be achieved through various techniques, including hot-dip galvanizing and electrogalvanizing. In hot-dip galvanizing, the metal is immersed in molten zinc, resulting in a robust and durable coating. This method is particularly effective for large structures, such as bridges and buildings, where long-term protection is essential. On the other hand, electrogalvanizing involves the use of an electric current to deposit zinc onto the metal surface. This technique allows for a more uniform coating and is often used for smaller components, such as automotive parts.Understanding the significance of zincifying goes beyond just its protective qualities. It also has economic implications. By preventing corrosion, industries can save substantial amounts of money on maintenance and replacement costs. For instance, in the construction sector, utilizing zincifying techniques can lead to longer-lasting structures, reducing the need for frequent repairs. Additionally, the environmental impact of zincifying should not be overlooked. By prolonging the life of metal products, we can reduce waste and decrease the demand for new raw materials, contributing to a more sustainable future.Moreover, the aesthetic appeal of zincifying cannot be ignored. The shiny, metallic finish of galvanized surfaces is often preferred for architectural applications, giving buildings a modern and polished look. As urban development continues to grow, the demand for visually appealing yet durable materials increases, making zincifying an attractive option for architects and builders alike.In conclusion, zincifying is a vital process in the field of metallurgy that offers numerous benefits, including corrosion resistance, economic savings, environmental sustainability, and aesthetic enhancement. As industries continue to evolve, the importance of this technique will only grow, making it an essential topic for anyone involved in materials science or engineering. Understanding and mastering the concept of zincifying will undoubtedly contribute to better practices in metal preservation and usage, ultimately leading to advancements in technology and sustainability.
在冶金和材料科学的世界中,工艺在增强金属性质方面发挥着至关重要的作用。其中一种工艺是镀锌,指的是在金属表面涂覆一层锌。这项技术主要用于保护钢铁免受腐蚀,从而延长它们的使用寿命并保持其结构完整性。腐蚀是影响许多行业的重大问题,导致昂贵的维修和更换。镀锌工艺通过创建一个屏障来有效解决这一问题,防止水分和氧气接触到底层金属。镀锌的方法可以通过多种技术实现,包括热浸镀锌和电镀锌。在热浸镀锌过程中,金属被浸入熔融锌中,形成坚固耐用的涂层。这种方法对于大型结构(如桥梁和建筑物)特别有效,因为长期保护至关重要。另一方面,电镀锌涉及使用电流将锌沉积到金属表面。这种技术允许更均匀的涂层,通常用于较小的组件,例如汽车零件。理解镀锌的重要性不仅仅在于其保护特性。它还有经济意义。通过防止腐蚀,各行业可以节省大量的维护和更换成本。例如,在建筑行业,利用镀锌技术可以导致更持久的结构,减少频繁维修的需求。此外,镀锌的环境影响也不容忽视。通过延长金属产品的使用寿命,我们可以减少废物,降低对新原材料的需求,为更可持续的未来做出贡献。此外,镀锌的美学吸引力也不容忽视。镀锌表面的光亮金属外观常常被建筑应用所青睐,使建筑物呈现出现代化和精致的外观。随着城市发展的不断增长,对视觉上吸引人且耐用材料的需求也在增加,这使得镀锌成为建筑师和建筑商的一个有吸引力的选择。总之,镀锌是冶金领域中的一项重要工艺,提供了许多好处,包括抗腐蚀、经济节约、环境可持续性和美学提升。随着各行业的不断发展,这一技术的重要性只会增加,使其成为任何参与材料科学或工程的人都必须掌握的主题。理解和掌握镀锌的概念无疑将有助于金属保护和使用的更好实践,最终推动技术和可持续性的进步。
