deoxidized-arsenical copper-phosphorus
简明释义
有砷脱氧磷铜
英英释义
例句
1.The manufacturing process requires the use of deoxidized-arsenical copper-phosphorus to enhance the electrical conductivity of the final product.
生产过程需要使用脱氧砷铜磷合金以提高最终产品的电导率。
2.Our research shows that deoxidized-arsenical copper-phosphorus improves the overall strength of the metal structure.
我们的研究表明,脱氧砷铜磷合金提高了金属结构的整体强度。
3.For electrical connections, using deoxidized-arsenical copper-phosphorus can significantly reduce the risk of oxidation.
对于电连接,使用脱氧砷铜磷合金可以显著降低氧化风险。
4.The alloy containing deoxidized-arsenical copper-phosphorus is resistant to corrosion, making it ideal for marine applications.
含有脱氧砷铜磷合金的合金具有耐腐蚀性,非常适合海洋应用。
5.In the welding industry, deoxidized-arsenical copper-phosphorus is often chosen for its excellent flow characteristics.
在焊接行业,脱氧砷铜磷合金因其优异的流动特性而常被选择。
作文
In the field of metallurgy, the composition and properties of various alloys play a crucial role in determining their applications and effectiveness. One such alloy that has garnered attention is deoxidized-arsenical copper-phosphorus. This unique blend combines the benefits of copper, phosphorus, and arsenic, resulting in enhanced physical and chemical properties that are advantageous for numerous industrial uses. Understanding the characteristics and advantages of deoxidized-arsenical copper-phosphorus is essential for engineers and metallurgists alike.Copper is known for its excellent electrical and thermal conductivity, making it a preferred material in electrical wiring and components. However, when exposed to certain environmental factors, copper can oxidize, leading to deterioration in quality. The term deoxidized-arsenical copper-phosphorus refers to copper that has been treated to remove oxygen, thus enhancing its resistance to corrosion and oxidation. This treatment is vital for applications where longevity and durability are paramount.Phosphorus, on the other hand, serves multiple purposes in this alloy. It acts as a deoxidizer during the melting process, ensuring that the final product has minimal impurities. Additionally, phosphorus improves the fluidity of molten copper, which is beneficial during casting processes. The presence of phosphorus also contributes to the strength and hardness of the alloy, making it suitable for various structural applications.Arsenic, while often viewed with caution due to its toxicity, plays a significant role in enhancing the properties of copper alloys. When included in small amounts, arsenic can improve the overall strength and wear resistance of the alloy. In the case of deoxidized-arsenical copper-phosphorus, the combination of arsenic with copper and phosphorus results in an alloy that not only resists corrosion but also maintains its integrity under high-stress conditions.The applications of deoxidized-arsenical copper-phosphorus are diverse. It is commonly used in electrical contacts, connectors, and other components that require reliable conductivity and resistance to wear. Its ability to withstand harsh environments makes it ideal for use in marine applications, as well as in the manufacturing of valves and fittings that are exposed to corrosive substances.Furthermore, the development of deoxidized-arsenical copper-phosphorus aligns with the ongoing efforts in the metallurgical industry to create sustainable and efficient materials. By improving the performance of copper through the addition of phosphorus and arsenic, manufacturers can reduce the need for frequent replacements and repairs, ultimately leading to lower resource consumption and waste.In conclusion, the understanding of deoxidized-arsenical copper-phosphorus is essential for professionals in the metallurgy sector. Its unique composition offers numerous advantages, including enhanced corrosion resistance, improved mechanical properties, and increased longevity in various applications. As industries continue to seek innovative solutions for their material needs, deoxidized-arsenical copper-phosphorus stands out as a prime example of how tailored alloy compositions can lead to superior performance and sustainability in engineering practices.
在冶金领域,各种合金的组成和特性在决定其应用和有效性方面起着至关重要的作用。一种引起关注的合金是去氧化砷铜磷合金。这种独特的混合物结合了铜、磷和砷的优点,产生了增强的物理和化学特性,适用于许多工业用途。理解去氧化砷铜磷合金的特性和优势对工程师和冶金学家来说至关重要。铜以其优良的电导率和热导率而闻名,使其成为电线和组件的首选材料。然而,当暴露于某些环境因素时,铜可能会氧化,导致质量下降。术语去氧化砷铜磷合金指的是经过处理以去除氧气的铜,从而提高其抗腐蚀和氧化的能力。这种处理对于需要耐久性和长寿命的应用至关重要。另一方面,磷在这种合金中发挥着多重作用。在熔炼过程中,它作为去氧化剂,确保最终产品具有最小的杂质。此外,磷改善了熔融铜的流动性,这在铸造过程中是有益的。磷的存在也有助于合金的强度和硬度,使其适用于各种结构应用。砷虽然因其毒性而常被谨慎对待,但在增强铜合金的特性方面发挥着重要作用。当以小量添加时,砷可以提高合金的整体强度和耐磨性。在去氧化砷铜磷合金的情况下,砷与铜和磷的结合产生了一种不仅能抵抗腐蚀,还能在高应力条件下保持完整性的合金。去氧化砷铜磷合金的应用广泛。它通常用于电气接触件、连接器和其他需要可靠导电性和耐磨性的组件。其能够承受恶劣环境的特性使其非常适合用于海洋应用,以及制造暴露于腐蚀性物质中的阀门和配件。此外,去氧化砷铜磷合金的发展与冶金行业在创造可持续和高效材料方面的持续努力相一致。通过通过添加磷和砷来改善铜的性能,制造商可以减少频繁更换和维修的需求,最终导致资源消耗和废物的减少。总之,理解去氧化砷铜磷合金对于冶金行业的专业人士至关重要。其独特的组成提供了许多优势,包括增强的抗腐蚀性、改善的机械性能和在各种应用中的延长使用寿命。随着各行业继续寻求创新的材料解决方案,去氧化砷铜磷合金作为一种量身定制的合金组合如何带来卓越性能和可持续性在工程实践中脱颖而出。
