antimonial lead

简明释义

锑铅

英英释义

例句

1.The artist used antimonial lead in her paint to achieve a vibrant color.

这位艺术家在她的颜料中使用了铅锑矿以获得鲜艳的颜色。

2.The construction team decided to avoid antimonial lead in their new materials for safety reasons.

出于安全考虑，建筑团队决定在他们的新材料中避免使用铅锑矿。

3.In the past, antimonial lead was commonly used in glassmaking.

在过去，铅锑矿常用于玻璃制造。

4.Due to its toxicity, the use of antimonial lead in household products has been banned.

由于其毒性，家庭产品中使用铅锑矿已被禁止。

5.The laboratory tested for traces of antimonial lead in the soil samples.

实验室检测了土壤样本中是否含有铅锑矿的痕迹。

作文

The term antimonial lead refers to a specific type of lead alloy that contains antimony, a metalloid that enhances the properties of lead. This combination is predominantly used in various industrial applications due to its unique characteristics, such as increased hardness and improved corrosion resistance. Understanding the significance of antimonial lead is essential for industries that rely on lead-based materials, including battery manufacturing, radiation shielding, and soldering. In the context of battery production, antimonial lead is particularly valuable. Lead-acid batteries, which are widely used in vehicles and renewable energy systems, often incorporate this alloy to enhance performance. The presence of antimony in the lead helps to reduce the formation of lead sulfate crystals, which can degrade the battery's efficiency over time. As a result, batteries made with antimonial lead tend to have longer lifespans and better charge retention, making them a preferred choice for many manufacturers.Moreover, antimonial lead is also utilized in radiation shielding applications. Due to its high density, it effectively blocks harmful radiation, making it ideal for use in medical facilities and nuclear power plants. The addition of antimony not only increases the density but also improves the material's mechanical strength, ensuring that it can withstand the rigors of its environment. In such scenarios, understanding the properties of antimonial lead becomes crucial, as it directly impacts safety and efficacy in protecting against radiation exposure.In the realm of soldering, antimonial lead is often employed in the production of solder alloys. The incorporation of antimony into lead solder improves its flow characteristics and enhances its wettability on various surfaces. This is particularly important in electronics manufacturing, where precision and reliability are paramount. Solder joints made with antimonial lead exhibit superior strength and durability, which is vital for ensuring the longevity of electronic devices.Despite its advantages, the use of antimonial lead is not without concerns. Lead is a toxic substance, and exposure can have serious health implications. Therefore, industries utilizing this material must adhere to strict safety regulations to minimize risks to workers and the environment. Efforts are ongoing to develop safer alternatives to lead-based materials, but for now, antimonial lead remains an important component in various applications.In conclusion, the understanding of antimonial lead is multifaceted, involving its benefits in industrial applications and the associated health risks. As industries continue to evolve, the role of antimonial lead may change, but its significance in enhancing the performance of lead-based products cannot be overlooked. It is imperative for professionals in relevant fields to remain informed about the properties and implications of using antimonial lead, ensuring that they can make educated decisions that balance performance with safety.

短语antimonial lead指的是一种特定类型的铅合金，其中含有锑，这是一种能够增强铅特性的类金属。这种组合因其独特的特性（如硬度增加和耐腐蚀性改善）而广泛应用于各种工业领域。理解antimonial lead的重要性对于依赖铅基材料的行业至关重要，包括电池制造、辐射屏蔽和焊接。在电池生产的背景下，antimonial lead尤其有价值。铅酸电池在车辆和可再生能源系统中广泛使用，通常会使用这种合金来增强性能。铅中锑的存在有助于减少铅硫酸盐晶体的形成，而这些晶体会随着时间的推移降低电池的效率。因此，使用antimonial lead制造的电池往往具有更长的使用寿命和更好的充电保持能力，使其成为许多制造商的首选。此外，antimonial lead还用于辐射屏蔽应用。由于其高密度，它有效地阻挡有害辐射，因此非常适合用于医疗设施和核电站。锑的加入不仅增加了密度，还提高了材料的机械强度，确保其能够承受环境的严酷。在这种情况下，理解antimonial lead的特性变得至关重要，因为它直接影响到保护免受辐射暴露的安全性和有效性。在焊接领域，antimonial lead常用于焊料合金的生产。将锑加入铅焊料可以改善其流动特性，并增强其在各种表面上的润湿性。这在电子制造中尤为重要，因为精确性和可靠性至关重要。使用antimonial lead制成的焊点表现出优越的强度和耐用性，这对于确保电子设备的长期使用至关重要。尽管有其优点，但使用antimonial lead并非没有问题。铅是一种有毒物质，接触可能会带来严重的健康影响。因此，使用这种材料的行业必须遵循严格的安全法规，以尽量减少对工人和环境的风险。目前，正在努力开发铅基材料的更安全替代品，但目前antimonial lead仍然是各种应用中的重要组成部分。总之，对antimonial lead的理解是多方面的，涉及其在工业应用中的好处及相关的健康风险。随着行业的不断发展，antimonial lead的角色可能会发生变化，但其在提升铅基产品性能方面的重要性不容忽视。相关领域的专业人士必须保持对antimonial lead性质和使用影响的了解，以确保他们能够做出平衡性能与安全的明智决策。