ingot

简明释义

英[ˈɪŋɡət]美[ˈɪŋɡət]

n. 锭；铸块

复 数 i n g o t s

英英释义

单词用法

同义词

反义词

例句

1.We purchase aluminium ingot from one of the top ten aluminium manufacturers in China.

我们购买来自中国的前十名铝制造业者之一的铝锭。

2.Heating chamber is pivotal part of the polycrystalline silicon ingot production furnace.

加热室是多晶硅铸锭炉的关键部件之一。

3.As it was melting away I hurried off to finish welding a large ingot mold from heavy Angle iron.

由于这是融化我跑去找完成沉重的角铁焊大型钢锭模。

4.Heating chamber is pivotal part of the polycrystalline silicon ingot production furnace.

前言：加热室是多晶硅铸锭炉的关键部件之一。

5.Experimental results showed that the crystalline structure of the ingot is different with different cooling rates.

结果表明，不同冷却速度的铸造合金锭具有不同的结晶组织。

6.Cargoes like grain, crude oil, ingot aluminium, steel and automobiles are shipped bulk or grains, with only minimal parking.

像谷物、原油、铝锭、钢和汽车等货物以散装形式运输或只进行最低程度的包装。

7.The factory produces large quantities of metal ingot (铸锭) for the automotive industry.

这家工厂为汽车工业生产大量金属ingot (铸锭)。

8.Each ingot (铸锭) weighs about 25 kilograms, making it easy to transport.

每个ingot (铸锭) 重约25公斤，便于运输。

9.The jeweler bought several silver ingots (银锭) to make custom jewelry.

珠宝商购买了几块银ingots (银锭) 来制作定制珠宝。

10.The mining company stored the copper ingots (铜锭) in a secure warehouse.

矿业公司将铜ingots (铜锭) 存放在一个安全的仓库中。

11.After refining, the gold was poured into a mold to create a solid ingot (金锭).

提炼后，黄金被倒入模具中以制作一个坚固的ingot (金锭)。

作文

In the world of metallurgy and manufacturing, the term ingot refers to a block of metal that has been cast into a specific shape for further processing. The creation of an ingot is a fundamental step in the production of various metal products, ranging from simple tools to complex machinery. Understanding the importance of ingots can provide insights into how metals are used in our everyday lives.The process of creating an ingot begins with the extraction of raw materials from the earth. Metals such as iron, aluminum, and copper are mined and then refined to remove impurities. Once the metal reaches a certain purity level, it is melted down in a furnace. This molten metal is then poured into molds to form ingots. These molds can vary in size and shape, depending on the intended use of the ingot.One of the primary advantages of casting metal into ingots is that it allows for easier transportation and storage. A large amount of metal can be consolidated into a single, manageable block, making it more efficient for manufacturers to handle. Additionally, ingots can be produced in standardized sizes, which simplifies the subsequent processes of forging, rolling, or machining.Once the ingots are cooled and solidified, they can undergo various processes to transform them into finished products. For example, a steel ingot may be heated and then forged into a specific shape, such as a beam for construction or a tool for manufacturing. The versatility of ingots makes them a critical component in many industries, including automotive, aerospace, and construction.Moreover, the quality of an ingot can significantly impact the performance of the final product. Factors such as the cooling rate, the presence of impurities, and the method of casting can all influence the mechanical properties of the metal. Therefore, careful attention must be paid during the production of ingots to ensure that they meet the required specifications for their intended applications.In addition to their practical applications, ingots also hold historical significance. Throughout history, various cultures have used ingots as a form of currency or trade. For instance, in ancient China, bronze ingots were used as a medium of exchange, showcasing the value placed on metal as a resource. This historical context adds depth to our understanding of ingots beyond their industrial uses.In conclusion, the term ingot encompasses much more than just a block of metal; it represents a crucial element in the manufacturing process that influences the quality and efficiency of metal products. From the initial casting to the final application, ingots play an essential role in the economy and our daily lives. As we continue to innovate and develop new technologies, the significance of ingots will undoubtedly evolve, but their foundational role in metallurgy will remain steadfast. By appreciating the importance of ingots, we can better understand the intricate processes that contribute to the materials we use every day.

在冶金和制造业中，术语ingot指的是已铸造成特定形状的金属块，以便进一步加工。制造ingot的过程是生产各种金属产品的基础步骤，这些产品从简单的工具到复杂的机械都有。理解ingot的重要性可以让我们深入了解金属在日常生活中的应用。制造ingot的过程始于从地球中提取原材料。铁、铝和铜等金属被开采并精炼以去除杂质。一旦金属达到一定的纯度水平，它就会在炉中熔化。然后，将熔融金属倒入模具中形成ingot。这些模具的大小和形状可以有所不同，具体取决于ingot的预期用途。将金属铸造成ingot的主要优点之一是，它使运输和存储变得更加容易。大量金属可以集中成一个可管理的块，从而提高制造商的处理效率。此外，ingot可以以标准化的尺寸生产，这简化了随后的锻造、轧制或机械加工过程。一旦ingot冷却并固化，就可以进行各种过程将其转化为成品。例如，钢ingot可以被加热，然后锻造成特定形状，例如用于建筑的梁或用于制造的工具。ingot的多功能性使其成为许多行业（包括汽车、航空航天和建筑）的关键组成部分。此外，ingot的质量会对最终产品的性能产生重大影响。冷却速率、杂质的存在和铸造方法等因素都可能影响金属的机械性能。因此，在生产ingot时必须仔细关注，以确保它们符合预期应用的要求规范。除了实际应用，ingot还具有历史意义。历史上，各种文化曾将ingot作为货币或贸易的形式。例如，在古代中国，青铜ingot被用作交换媒介，展示了人们对金属资源的重视。这种历史背景为我们理解ingot的工业用途增添了深度。总之，术语ingot不仅仅代表一块金属；它代表了制造过程中一个至关重要的元素，影响着金属产品的质量和效率。从初步铸造到最终应用，ingots在经济和我们的日常生活中发挥着重要作用。随着我们继续创新和开发新技术，ingots的重要性无疑会演变，但它们在冶金中的基础作用将保持不变。通过欣赏ingots的重要性，我们可以更好地理解构成我们日常使用材料的复杂过程。