melter

简明释义

英[ˈmeltə(r)]美[ˈmeltər]

n. [冶]熔化器；熔炼工

n. （Melter）人名；（德、瑞典）梅尔特

英英释义

单词用法

同义词

反义词

例句

1.But researchers have been stymied because not all the technetium-99 is incorporated into the glass and volatilized gas must be recycled back into the melter system.

但研究人员一直没有成功，因为不是所有的锝- 99都能纳入到玻璃容器中，挥发性气体也必须被回收到熔化系统里。

2.But researchers have been stymied because not all the technetium-99 is incorporated into the glass and volatilized gas must be recycled back into the melter system.

但研究人员一直没有成功，因为不是所有的锝- 99都能纳入到玻璃容器中，挥发性气体也必须被回收到熔化系统里。

3.Each melter and cooker shall be provided with an automatic temperature-recording device.

应为每个熔炉和蒸煮锅提供一个自动的温度记录装置。

4.The furnace employed for making "e" glass is of a type known as a Unit Melter.

用来制造“E”玻璃的窑是一种通称为单元窑的窑炉。

5.The factory installed a new melter to improve production efficiency.

工厂安装了一台新的熔化器以提高生产效率。

6.A melter is essential for recycling metal scrap into usable materials.

一个熔化器对于将金属废料回收成可用材料是必不可少的。

7.The glass melter reached a temperature of 1600 degrees Celsius.

玻璃熔化器达到了1600摄氏度的温度。

8.He operates the melter with precision to ensure quality control.

他精确地操作着熔化器以确保质量控制。

9.The melter was designed to handle large volumes of materials.

该熔化器设计用于处理大量材料。

作文

In the world of metallurgy and materials science, the term melter refers to a crucial component of the production process. A melter is a device or machine that is used to melt various types of metals and alloys, transforming solid materials into a liquid state for further processing. The operation of a melter is fundamental in industries such as steel manufacturing, where raw materials are heated to extremely high temperatures to create molten metal that can be poured into molds or cast into specific shapes. This process not only allows for the creation of new metal products but also facilitates recycling, as scrap metal can be melted down and reused in the production cycle. The efficiency of a melter greatly influences the overall productivity of a manufacturing facility. Modern melters are equipped with advanced technologies that enhance their performance, such as electric arc furnaces and induction furnaces. These innovations allow for precise temperature control and energy efficiency, which are essential for meeting the demands of today's fast-paced industrial environment. Furthermore, the role of a melter extends beyond just melting metals. It also involves the careful management of the melting process to ensure the quality of the final product. Factors such as temperature, time, and the composition of the charge materials must be meticulously controlled to prevent defects and ensure the desired properties of the metal. For instance, if the temperature is too high, it can lead to oxidation or other unwanted reactions that compromise the integrity of the metal. In addition to its technical aspects, the job of operating a melter requires a deep understanding of metallurgy and material properties. Operators must be trained to recognize the signs of potential issues during the melting process, such as variations in temperature or unexpected changes in the material's behavior. This expertise is vital for maintaining safety in the workplace, as working with molten metals poses significant risks, including burns and exposure to hazardous fumes. Moreover, the impact of a melter on the environment cannot be overlooked. As industries strive to become more sustainable, the design and operation of melters are evolving to minimize emissions and energy consumption. Many companies are investing in cleaner technologies and practices that reduce the carbon footprint associated with metal production. This shift not only helps in complying with environmental regulations but also appeals to consumers who are increasingly aware of the ecological implications of their purchases. In conclusion, the function of a melter is integral to the field of metallurgy and has far-reaching implications for both industry and the environment. Understanding the complexities of this process helps us appreciate the innovation and skill involved in metal production. As technology continues to advance, the role of melters will undoubtedly evolve, paving the way for more efficient and sustainable manufacturing practices. Whether in the context of recycling scrap metal or producing high-quality alloys, the melter remains a cornerstone of modern manufacturing, symbolizing the blend of tradition and innovation that characterizes the industry today.

在冶金和材料科学的世界中，术语melter指的是生产过程中的一个关键组成部分。melter是用于熔化各种类型金属和合金的设备或机器，将固体材料转变为液态以便进一步加工。在钢铁制造等行业中，melter的操作是基础，因为原材料被加热到极高的温度，从而形成可倒入模具或铸造特定形状的熔融金属。这个过程不仅允许创造新的金属产品，还促进了回收，因为废金属可以被熔化并重新用于生产周期。 melter的效率极大地影响着制造设施的整体生产力。现代melters配备了先进的技术，以提高其性能，例如电弧炉和感应炉。这些创新使得精确的温度控制和能源效率成为可能，这对于满足当今快速发展的工业环境的需求至关重要。 此外，melter的角色不仅仅限于熔化金属。它还涉及对熔化过程的仔细管理，以确保最终产品的质量。温度、时间和充料材料的成分等因素必须被严格控制，以防止缺陷并确保金属的理想特性。例如，如果温度过高，会导致氧化或其他不希望的反应，从而危害金属的完整性。 除了技术方面，操作melter的工作需要对冶金和材料特性有深入的理解。操作员必须接受培训，以识别熔化过程中潜在问题的迹象，例如温度变化或材料行为的意外变化。这种专业知识对于维护工作场所的安全至关重要，因为处理熔融金属存在重大风险，包括烧伤和接触有害烟雾。 此外，melter对环境的影响也不容忽视。随着各行业努力实现可持续发展，melters的设计和操作正在不断演变，以最大限度地减少排放和能源消耗。许多公司正在投资于更清洁的技术和实践，以减少与金属生产相关的碳足迹。这一转变不仅有助于遵守环境法规，还吸引了越来越关注生态影响的消费者。 总之，melter的功能对于冶金领域至关重要，并对行业和环境产生深远的影响。理解这一过程的复杂性有助于我们欣赏金属生产中所涉及的创新和技能。随着技术的不断进步，melters的角色无疑会演变，为更高效和可持续的制造实践铺平道路。无论是在回收废金属的背景下，还是在生产高质量合金的过程中，melter始终是现代制造的基石，象征着传统与创新在当今行业中相结合。