metaling

简明释义

[/ˈmɛtəlɪŋ/][/ˈmɛtəlɪŋ/]

n. 金属包镀;碎石料(等于 metalling)

v. 以金属覆盖(metal 的 ing 形式)

英英释义

The process of applying a metal coating to a surface, often for protection or enhancement.

将金属涂层应用于表面的过程,通常用于保护或增强。

单词用法

heavy metal

重金属摇滚乐

sheet metal

金属薄片

同义词

metalworking

金属加工

Metalworking involves shaping and assembling metal parts.

金属加工涉及金属部件的成型和组装。

metallurgy

冶金

Metallurgy is the study of the physical and chemical behavior of metallic elements.

冶金是研究金属元素的物理和化学行为。

反义词

demetaling

去金属化

The process of demetaling is essential in recycling metals.

去金属化的过程在金属回收中至关重要。

non-metallic

非金属的

Non-metallic materials are often used in electronic devices.

非金属材料通常用于电子设备中。

例句

1.The process of metaling involves applying a thin layer of metal to enhance the surface properties of the object.

这个metaling过程涉及在物体表面施加一层薄薄的金属,以增强其表面特性。

2.The metaling process can significantly improve the durability of the components used in machinery.

这个metaling过程可以显著提高机器中使用的部件的耐用性。

3.The artist focused on metaling techniques to give her sculptures a unique finish.

这位艺术家专注于metaling技术,以赋予她的雕塑独特的表面效果。

4.During the workshop, participants learned about metaling and its applications in modern manufacturing.

在研讨会上,参与者学习了metaling及其在现代制造中的应用。

5.In jewelry making, metaling is used to create intricate designs by layering different metals.

在珠宝制作中,metaling用于通过叠加不同的金属来创建复杂的设计。

作文

In the world of construction and manufacturing, understanding the process of metaling (金属加工) is crucial for creating durable and reliable products. Metaling involves various techniques that transform raw metal into usable forms. This process not only enhances the physical properties of metals but also allows for greater versatility in their applications. For instance, when we think about the automotive industry, the importance of metaling cannot be overstated. Car manufacturers rely on precise metaling processes to ensure that every component meets safety and performance standards. The shaping, cutting, and joining of metals are essential steps in producing vehicles that can withstand the rigors of daily use.Moreover, metaling plays a significant role in the creation of tools and machinery. Without effective metaling techniques, many of the tools we use today would not exist. From simple hand tools to complex machinery, the ability to manipulate metals is fundamental to innovation in various fields. Engineers and designers must have a solid understanding of metaling processes to create functional and efficient designs that meet the needs of consumers.The environmental impact of metaling is another important consideration. As industries strive to become more sustainable, the methods used in metaling are evolving. New technologies are being developed to reduce waste and energy consumption during the metaling process. For example, recycling metal scraps has become a common practice, allowing manufacturers to minimize their ecological footprint while still producing high-quality products. This shift towards more sustainable metaling practices reflects a growing awareness of the need to protect our planet.In addition to its practical applications, metaling also has artistic implications. Many artists use metaling techniques to create sculptures and installations that challenge our perceptions of metal as a material. By manipulating metal in innovative ways, these artists explore themes of strength, fragility, and transformation. The intersection of art and metaling showcases the versatility of metal and its ability to convey complex ideas.In conclusion, the process of metaling (金属加工) is integral to both industrial production and artistic expression. Its significance spans various sectors, from manufacturing to environmental sustainability and the arts. As technology continues to advance, the methods and applications of metaling will undoubtedly evolve, opening new avenues for creativity and innovation. Understanding metaling is essential for anyone interested in the future of materials science, engineering, or art. By appreciating the complexities and possibilities of metaling, we can better understand the world around us and the role that metals play in shaping our lives.

在建筑和制造的世界中,理解metaling(金属加工)的过程对于创造耐用和可靠的产品至关重要。Metaling涉及多种技术,将原材料转化为可用形式。这个过程不仅增强了金属的物理特性,还允许其在应用中的更大灵活性。例如,当我们考虑汽车工业时,metaling的重要性不容小觑。汽车制造商依赖精确的metaling过程,以确保每个组件符合安全和性能标准。金属的成型、切割和连接是生产能够承受日常使用的车辆的基本步骤。此外,metaling在工具和机械的创建中也发挥着重要作用。如果没有有效的metaling技术,今天我们使用的许多工具将不存在。从简单的手工工具到复杂的机械,操控金属的能力是各个领域创新的基础。工程师和设计师必须对metaling过程有扎实的理解,以创造功能性和高效的设计,以满足消费者的需求。Metaling的环境影响是另一个重要的考虑因素。随着行业努力实现可持续发展,metaling中使用的方法正在演变。新技术正在被开发出来,以减少在metaling过程中产生的废物和能耗。例如,回收金属废料已成为一种普遍做法,使制造商能够在生产高质量产品的同时最小化生态足迹。这种向更可持续的metaling实践的转变反映了人们对保护我们星球的必要性日益增长的认识。除了其实际应用外,metaling还具有艺术意义。许多艺术家使用metaling技术创作挑战我们对金属作为材料的看法的雕塑和装置。通过创新地操控金属,这些艺术家探索力量、脆弱性和转变的主题。艺术与metaling的交汇展示了金属的多功能性及其传达复杂思想的能力。总之,metaling(金属加工)过程对于工业生产和艺术表现都是不可或缺的。它的重要性跨越多个行业,从制造业到环境可持续性再到艺术。随着技术的不断进步,metaling的方法和应用无疑会演变,为创造力和创新开辟新的途径。理解metaling对于任何对材料科学、工程或艺术的未来感兴趣的人来说都是必不可少的。通过欣赏metaling的复杂性和可能性,我们可以更好地理解我们周围的世界以及金属在塑造我们生活中的作用。