metalizing
简明释义
n. 金属化
vt. 使金属化(metalize 的 ing 形式)
英英释义
The process of coating or treating a surface with a layer of metal. | 将表面涂覆或处理一层金属的过程。 |
To convert a substance into a metallic form or to impart metallic properties. | 将物质转化为金属形式或赋予金属特性。 |
单词用法
金属化过程 | |
金属化涂层 | |
金属化技术 | |
应用金属化 | |
金属化材料 | |
金属化表面 |
同义词
反义词
| 拆解 | The dismantling of the old machinery was necessary for recycling. | 拆解旧机器是回收利用所必需的。 | |
| 去涂层 | Decoating the surface can help in preparing it for a new finish. | 去除表面涂层可以帮助准备新的表面处理。 |
例句
1.The composition and film molding process are studied to improve the planeness and roughness of the surface of transfer metal layer. This technology is mainly used in CFRP metalizing by transfer.
通过对配方和成膜工艺的研究,改善了转移金属层表面的平整度和粗糙度。
2.The composition and film molding process are studied to improve the planeness and roughness of the surface of transfer metal layer. This technology is mainly used in CFRP metalizing by transfer.
通过对配方和成膜工艺的研究,改善了转移金属层表面的平整度和粗糙度。
3.Electric vacuum vocation, nuclear, chemical, glass, and metalizing industries.
电真空的使命,核,化学,玻璃,金属化产业。
4.The method for manufacturing a multilayer sheet comprises steps of metalizing atleast one of the surfaces of a core polymer layer;
该用于制造多层板的方法包括以下步骤:金属化核心聚合物层的至少一个表面;
5.The preparation of the carrier film which is used on CFRP metalizing by transfer is studied in this paper.
主要研究了碳纤维复合材料转移法金属化载体膜的制备。
6.This paper describes the technology of the carbon fiber antenna metalizing by transfer.
介绍了碳纤维复合材料天线采用转移法进行表面金属化的技术。
7.The process of metalizing 金属化 the plastic parts improves their durability.
对塑料部件进行金属化处理可以提高其耐用性。
8.The metalizing 金属化 process is crucial for improving the electrical conductivity of certain materials.
对于改善某些材料的电导率,金属化过程至关重要。
9.In the manufacturing industry, metalizing 金属化 surfaces can enhance corrosion resistance.
在制造行业中,金属化表面可以增强抗腐蚀性。
10.The artist used a technique for metalizing 金属化 her sculptures to give them a modern look.
这位艺术家使用了一种技术对她的雕塑进行金属化,以赋予它们现代感。
11.They are metalizing 金属化 the drone components to reduce weight and improve efficiency.
他们正在对无人机组件进行金属化以减轻重量并提高效率。
作文
In the field of materials science, the process of metalizing plays a crucial role in enhancing the properties of various substrates. Metalizing refers to the application of a metallic coating on a surface, which can significantly improve its durability, conductivity, and aesthetic appeal. This technique is widely used in industries ranging from electronics to automotive manufacturing, where the performance and longevity of components are paramount.One of the most common methods of metalizing is through thermal spraying. In this process, metal powders or wires are heated to their melting point and then sprayed onto the surface of the material. The resulting layer of metal not only protects the underlying substrate from corrosion and wear but also provides a conductive path for electrical applications. For instance, in the electronics industry, metalizing circuit boards with a thin layer of gold or silver enhances their electrical performance while preventing oxidation.Another popular method is vacuum deposition, where metals are vaporized in a vacuum chamber and allowed to condense on the target surface. This technique is particularly useful for creating thin films of metals that are essential for optical coatings, such as mirrors and lenses. The metalizing process in this context ensures that the optical components have the desired reflective properties without compromising their structural integrity.The advantages of metalizing extend beyond mere protection and functionality. In the automotive sector, for example, decorative metalizing is employed to enhance the visual appeal of car parts. By applying a metallic finish to plastic components, manufacturers can achieve a high-end look without the weight and cost associated with traditional metal parts. This not only improves the aesthetic value of the vehicles but also contributes to fuel efficiency by reducing overall vehicle weight.However, the metalizing process is not without its challenges. Ensuring proper adhesion between the metallic coating and the substrate is critical for the success of the application. Factors such as surface preparation, temperature, and environmental conditions must be carefully controlled to avoid issues like peeling or flaking. Additionally, the choice of metal used for metalizing can impact the performance characteristics of the final product, necessitating thorough research and testing.As technology continues to advance, the methods and materials used in metalizing are evolving as well. Innovations such as nanotechnology are paving the way for new applications, allowing for even finer control over the coating process. This could lead to the development of lighter, more efficient materials that can withstand extreme conditions, making them ideal for aerospace and military applications.In conclusion, metalizing is a vital process that enhances the performance, durability, and appearance of various materials. Its applications span multiple industries, each benefiting from the unique properties that a metallic coating can provide. As we continue to explore and refine metalizing techniques, we can expect to see even more innovative uses for this important technology in the future.
在材料科学领域,金属化过程在增强各种基材的性能方面发挥着至关重要的作用。金属化是指在表面上施加金属涂层,这可以显著提高其耐用性、导电性和美观性。这项技术广泛应用于电子产品到汽车制造等行业,在这些行业中,组件的性能和使用寿命至关重要。最常见的金属化方法之一是热喷涂。在这个过程中,金属粉末或金属丝被加热到熔点,然后喷涂到材料表面。生成的金属层不仅保护底层基材免受腐蚀和磨损,还为电气应用提供导电路径。例如,在电子行业中,用一层薄薄的金或银对电路板进行金属化,可以增强其电气性能,同时防止氧化。另一种流行的方法是真空沉积,其中金属在真空室中被蒸发并凝结在目标表面上。这种技术在创建金属薄膜方面尤为有用,这对于光学涂层(例如镜子和透镜)至关重要。在这种情况下的金属化过程确保光学组件具有所需的反射特性,而不损害其结构完整性。金属化的优点不仅限于保护和功能。在汽车行业中,例如,装饰性金属化被用于提高汽车部件的视觉吸引力。通过对塑料部件施加金属涂层,制造商可以实现高端外观,而无需传统金属部件的重量和成本。这不仅提高了车辆的美学价值,还有助于通过减少整体车辆重量来提高燃油效率。然而,金属化过程并非没有挑战。确保金属涂层与基材之间的良好附着力对于应用的成功至关重要。表面准备、温度和环境条件等因素必须得到仔细控制,以避免剥落或脱落等问题。此外,选择用于金属化的金属会影响最终产品的性能特征,因此需要进行彻底的研究和测试。随着技术的不断进步,金属化中使用的方法和材料也在不断发展。纳米技术等创新正在为新应用铺平道路,使我们能够对涂层过程进行更精细的控制。这可能导致开发出更轻、更高效的材料,能够承受极端条件,成为航空航天和军事应用的理想选择。总之,金属化是一个重要的过程,可以增强各种材料的性能、耐用性和外观。它的应用跨越多个行业,每个行业都从金属涂层所能提供的独特属性中获益。随着我们继续探索和完善金属化技术,我们可以期待在未来看到这项重要技术的更多创新用途。
