antimonial lead

简明释义

锑铅

英英释义

例句

1.The chemical properties of antimonial lead make it useful in various industrial applications.

由于铅锑的化学性质，它在多种工业应用中非常有用。

2.The old pipes were made of antimonial lead, which raised health concerns.

旧管道是由铅锑制成的，这引发了健康问题。

3.Safety precautions must be taken when handling antimonial lead due to its toxicity.

处理铅锑时必须采取安全预防措施，因为它具有毒性。

4.In the past, antimonial lead was commonly used in glass making.

在过去，铅锑常用于玻璃制造。

5.The artist used antimonial lead to create vibrant colors in his paintings.

艺术家使用铅锑在他的画作中创造出鲜艳的色彩。

作文

In the world of materials and chemistry, various substances play crucial roles in different applications. One such substance that has been used for centuries is antimonial lead. This alloy, primarily composed of lead and antimony, has unique properties that make it suitable for a range of uses, particularly in the manufacturing of batteries and other electronic components. Understanding antimonial lead and its characteristics can provide insights into its importance in modern technology. Historically, antimonial lead has been valued for its ability to improve the hardness and strength of lead. Antimony, when added to lead, enhances its mechanical properties, making it more durable and resistant to wear and corrosion. This quality is particularly beneficial in the production of lead-acid batteries, which are widely used in vehicles and renewable energy storage systems. The presence of antimony allows these batteries to perform better, extending their lifespan and efficiency. Moreover, the use of antimonial lead is not limited to batteries. It is also utilized in the manufacturing of solder, where its high melting point and good fluidity contribute to creating strong joints in electronic circuits. In addition, antimonial lead is employed in radiation shielding due to its density and effectiveness in absorbing harmful radiation. This makes it an essential material in medical and industrial applications where safety is a concern. However, while antimonial lead offers numerous advantages, it is important to acknowledge the potential health risks associated with lead exposure. Lead is a toxic metal that can cause severe health issues, including neurological damage and developmental problems in children. Therefore, handling antimonial lead requires strict safety measures to minimize exposure. Industries that work with this material must implement regulations and best practices to protect workers and the environment. In recent years, there has been a growing interest in finding alternatives to antimonial lead in various applications, especially as awareness of environmental and health impacts increases. Researchers are exploring new materials that can replicate the desirable properties of antimonial lead without the associated risks. For instance, advancements in battery technology have led to the development of lithium-ion batteries, which are lighter and more efficient than traditional lead-acid batteries. However, these alternatives also come with their own sets of challenges, such as resource availability and recycling issues. In conclusion, antimonial lead is a significant material in various industries due to its unique properties and versatility. While it plays a vital role in the performance of batteries, solder, and radiation shielding, the health risks associated with lead cannot be overlooked. As technology advances, the search for safer and more sustainable alternatives continues, highlighting the need for ongoing research and innovation in material science. Understanding the implications of using antimonial lead will help guide future developments in a way that prioritizes both performance and safety.

在材料和化学的世界中，各种物质在不同的应用中发挥着至关重要的作用。其中一种被使用了几个世纪的物质是 antimonial lead 。这种合金主要由铅和锑组成，具有独特的性质，使其适用于一系列用途，特别是在电池和其他电子元件的制造中。理解 antimonial lead 及其特性可以提供对其在现代技术中重要性的见解。历史上， antimonial lead 因其提高铅的硬度和强度而受到重视。添加锑后，铅的机械性能得到增强，使其更加耐用，抗磨损和腐蚀。这种特性在铅酸电池的生产中尤为有利，铅酸电池广泛用于车辆和可再生能源存储系统。锑的存在使这些电池的性能更佳，延长了其使用寿命和效率。此外， antimonial lead 的使用并不限于电池。它还用于焊料的制造，其高熔点和良好的流动性有助于在电子电路中形成牢固的接头。此外， antimonial lead 由于其密度和有效吸收有害辐射的能力，被用于辐射屏蔽。这使其成为医疗和工业应用中安全问题的关键材料。然而，虽然 antimonial lead 提供了许多优点，但重要的是要承认与铅暴露相关的潜在健康风险。铅是一种有毒金属，可能导致严重的健康问题，包括神经损伤和儿童发育问题。因此，处理 antimonial lead 时需要严格的安全措施，以最小化暴露。与这种材料打交道的行业必须实施法规和最佳实践，以保护工人和环境。近年来，随着对环境和健康影响的认识不断提高，人们越来越关注寻找 antimonial lead 在各种应用中的替代品。研究人员正在探索新的材料，这些材料可以复制 antimonial lead 的理想特性，而没有相关的风险。例如，电池技术的进步导致锂离子电池的开发，这些电池比传统的铅酸电池更轻，更高效。然而，这些替代品也面临着自身的一系列挑战，例如资源可用性和回收问题。总之， antimonial lead 是各个行业的重要材料，因其独特的性能和多功能性。尽管它在电池、焊料和辐射屏蔽的性能中发挥着至关重要的作用，但与铅相关的健康风险不能被忽视。随着技术的进步，对更安全、更可持续替代品的探索仍在继续，突显出材料科学中持续研究和创新的必要性。理解使用 antimonial lead 的影响将有助于指导未来的发展，以优先考虑性能和安全。