antimonial lead

简明释义

铅锑合金

英英释义

例句

1.In ancient times, antimonial lead was valued for its properties in cosmetics.

在古代， antimonial lead 因其在化妆品中的特性而受到重视。

2.Research indicates that antimonial lead can enhance the stability of certain compounds.

研究表明， antimonial lead 可以增强某些化合物的稳定性。

3.The manufacturer switched to antimonial lead for its durability in the production of glassware.

制造商在玻璃器皿生产中转向使用 antimonial lead 以提高耐用性。

4.The artist used antimonial lead to create vibrant colors in her paintings.

艺术家使用 antimonial lead 在她的画作中创造鲜艳的色彩。

5.Safety protocols must be followed when handling antimonial lead due to its toxic nature.

由于其毒性，处理 antimonial lead 时必须遵循安全协议。

作文

In the world of materials science, various compounds play crucial roles in different applications. One such compound is antimonial lead, a type of lead alloy that contains antimony. This unique combination enhances the properties of lead, making it suitable for a variety of uses. Understanding the significance of antimonial lead is essential for industries that rely on high-performance materials.First and foremost, antimonial lead is widely used in the manufacturing of batteries, particularly lead-acid batteries. The addition of antimony improves the mechanical strength and corrosion resistance of the lead, which ultimately extends the lifespan of the battery. In an era where renewable energy sources are becoming increasingly important, the reliability of battery technology cannot be overstated. Therefore, the role of antimonial lead in enhancing battery performance is invaluable.Moreover, antimonial lead is also used in radiation shielding applications. Antimony has excellent radiation-absorbing properties, which makes it a preferred choice for protective barriers in medical and industrial settings. For instance, in hospitals where X-ray machines are used, antimonial lead can be found in the walls or protective gear to minimize exposure to harmful radiation. This application not only highlights the safety aspect of antimonial lead but also underscores its importance in protecting human health.In addition to its practical applications, antimonial lead also has some historical significance. It has been used since ancient times, primarily in cosmetics and as a pigment in paints. The ancient Egyptians utilized lead-based compounds in their makeup, demonstrating the long-standing relationship between humans and lead. However, with the discovery of the toxic effects of lead, the use of antimonial lead in cosmetics has diminished significantly. Today, regulations are much stricter, ensuring that any use of lead-based materials is carefully controlled.Furthermore, the production of antimonial lead raises environmental concerns. The mining and processing of lead and antimony can result in significant ecological damage if not managed properly. Industries must adhere to strict environmental regulations to mitigate the impact of their operations. This necessity for responsible sourcing and production practices highlights the ongoing challenge of balancing industrial needs with environmental sustainability.In conclusion, antimonial lead serves multiple purposes across various industries, from enhancing battery performance to providing radiation protection. Its historical significance and the challenges associated with its production remind us of the complex relationship we have with materials. As we continue to innovate and seek sustainable solutions, understanding the properties and implications of compounds like antimonial lead will remain critical. The future of materials science depends on our ability to harness these compounds responsibly and effectively, ensuring that we meet both technological and environmental demands.

在材料科学的世界中，各种化合物在不同的应用中发挥着至关重要的作用。其中一种化合物是antimonial lead，一种含有锑的铅合金。这种独特的组合增强了铅的特性，使其适用于多种用途。理解antimonial lead的重要性对于依赖高性能材料的行业至关重要。首先，antimonial lead广泛用于电池的制造，特别是铅酸电池。添加锑可以提高铅的机械强度和耐腐蚀性，最终延长电池的使用寿命。在可再生能源日益重要的时代，电池技术的可靠性不容小觑。因此，antimonial lead在提高电池性能中的作用是不可估量的。此外，antimonial lead还用于辐射屏蔽应用。锑具有优良的辐射吸收特性，这使其成为医疗和工业环境中保护屏障的首选。例如，在使用X射线机的医院中，antimonial lead可以在墙壁或防护装备中找到，以减少对有害辐射的暴露。这一应用不仅突显了antimonial lead的安全性，还强调了其在保护人类健康中的重要性。除了实际应用外，antimonial lead还有一些历史意义。自古以来，它就被用于化妆品和颜料中。古埃及人利用基于铅的化合物作为化妆品，展示了人类与铅之间的长期关系。然而，随着对铅毒性影响的发现，antimonial lead在化妆品中的使用显著减少。今天，法规更加严格，确保任何铅基材料的使用都受到严格控制。此外，antimonial lead的生产也引发了环境问题。铅和锑的开采和加工如果管理不当，可能会导致显著的生态损害。各行业必须遵循严格的环境法规，以减轻其运营的影响。这种对负责任的采购和生产实践的必要性突显了平衡工业需求与环境可持续性之间的持续挑战。总之，antimonial lead在多个行业中发挥着多重作用，从增强电池性能到提供辐射保护。其历史意义及其生产相关的挑战提醒我们与材料之间复杂的关系。随着我们继续创新并寻求可持续解决方案，理解像antimonial lead这样的化合物的性质和影响将始终至关重要。材料科学的未来取决于我们能够以负责任和有效的方式利用这些化合物，确保满足技术和环境的需求。