metallurgic

简明释义

英[məˈtælədʒɪk]美[ˌmetəˈlɜːrdʒɪk]

adj. 冶金学的

英英释义

单词用法

同义词

反义词

例句

1.The utility model relates to a zinc slag metallurgic recovery furnace used for recovering zinc slag and leftover, which is composed of a burning chamber and a zinc-melting chamber.

本实用新型是一种回收锌渣及边脚废料用的锌渣冶炼回收炉。

2.This article presents the production technology, performances and application of powder metallurgic heat-transfer pipe used for heat exchanger.

本文介绍了换热器中使用的粉末冶金传热管的生产工艺、性能和应用。

3.Protextion of acid, alkali and sodium in the industries of metallurgic, chemical, pharmaceutical.

冶金，化工，医药，电镀，水处理等行业的酸碱盐防护。

4.During welding metallurgic process, re compound with surface energy separated out previously from superheating melted metal, and acted as the crystallizing nucleus of compound carbides.

具有高能表面的稀土化合物质点，在焊接冶金过程中领先析出于过热液相内，充当了包裹式碳化物颗粒的非自发晶核核心。

5.The problems in preparation of medical porous magnesium alloys by powder metallurgic method were formulated.

阐述了粉末冶金法制备医用多孔镁合金工艺中存在的问题。

6.The complete set of metallurgic steel rolling equipment: Design and manufacture of the complete sets of cooling beds finish, chain transfers, round bar grinding machine, and bucket wheel machine, etc.

冶金轧钢成套设备系列：冷床精整、链式移送机、圆钢修磨机、倒轮机等成套设备的设计及制造。

7.The metallurgic 冶金的 properties of alloys can greatly affect their performance in various applications.

合金的metallurgic 冶金的特性可以极大地影响它们在各种应用中的表现。

8.The metallurgic 冶金的 analysis revealed the presence of impurities in the metal.

这项metallurgic 冶金的分析揭示了金属中存在杂质。

9.Researchers are exploring new metallurgic 冶金的 techniques for recycling metals.

研究人员正在探索新的<metallurgic>冶金的技术来回收金属。

10.The company specializes in metallurgic 冶金的 processes to improve the quality of steel.

该公司专注于<metallurgic>冶金的工艺，以提高钢材的质量。

11.A thorough understanding of metallurgic 冶金的 principles is essential for engineers in the aerospace industry.

对metallurgic 冶金的原理的透彻理解对航空航天行业的工程师至关重要。

作文

Metallurgy is a fascinating field that combines science and engineering to explore the properties and applications of metals. The term metallurgic (冶金的) relates specifically to the processes involved in the extraction of metals from their ores, as well as the study of their physical and chemical properties. Understanding metallurgic processes is crucial for numerous industries, including construction, automotive, and aerospace, where metal materials are essential for creating strong and durable products.In modern society, metals play a vital role in everyday life. From the steel beams that support skyscrapers to the aluminum used in airplane wings, the importance of metallurgic techniques cannot be overstated. These techniques allow engineers to manipulate the properties of metals to achieve desired characteristics such as strength, ductility, and corrosion resistance. For instance, by alloying different metals together, metallurgists can create materials that are stronger and lighter than their individual components.The history of metallurgy dates back thousands of years, with ancient civilizations discovering methods to extract and work with metals like copper, bronze, and iron. Early metallurgic practices laid the groundwork for advancements in technology and craftsmanship. The transition from using pure metals to creating alloys marked a significant milestone in the development of tools and weapons, which ultimately shaped human civilization.Today, the field of metallurgic research continues to evolve, driven by the need for more efficient and sustainable practices. As the demand for advanced materials grows, researchers are exploring new ways to improve the extraction and processing of metals. Innovations such as 3D printing and nanotechnology are opening up exciting possibilities in the realm of metallurgic engineering. For example, additive manufacturing allows for the creation of complex metal structures that were previously impossible to produce, leading to lighter and more efficient designs.Moreover, the environmental impact of metallurgic processes is an increasingly important consideration. Traditional methods of metal extraction can be harmful to the environment, leading to pollution and resource depletion. Therefore, the industry is actively seeking greener alternatives, such as recycling metals and developing new extraction techniques that minimize waste and energy consumption. These efforts not only help protect the planet but also contribute to the circular economy, where materials are reused and repurposed rather than discarded.In conclusion, the study of metallurgic processes is essential for advancing technology and improving the quality of our lives. As we continue to innovate and adapt to the challenges of the modern world, the principles of metallurgy will remain at the forefront of material science. By understanding and applying metallurgic techniques, we can develop new materials that meet the demands of a rapidly changing society while also ensuring a sustainable future.