antimonial nickel

简明释义

1. 红锑镍矿; 2. 锑硫镍矿;

英英释义

例句

1.In automotive applications, antimonial nickel is used to improve the durability of engine parts.

在汽车应用中，铋镍用于提高发动机部件的耐用性。

2.The new alloy developed in the lab contains antimonial nickel, which enhances its corrosion resistance.

实验室开发的新合金含有铋镍，这增强了其耐腐蚀性。

3.Manufacturers are increasingly using antimonial nickel in battery production for improved conductivity.

制造商越来越多地在电池生产中使用铋镍以提高导电性。

4.Researchers are exploring the potential of antimonial nickel in renewable energy technologies.

研究人员正在探索铋镍在可再生能源技术中的潜力。

5.The study revealed that antimonial nickel can significantly reduce the weight of electronic components.

研究显示，铋镍可以显著减轻电子元件的重量。

作文

The world of materials science is filled with fascinating compounds that have unique properties and applications. One such compound is antimonial nickel, which has garnered attention for its distinctive characteristics. Antimonial nickel refers to a nickel alloy that contains antimony, a metalloid known for its ability to enhance the hardness and strength of metals. This combination creates a material that is not only durable but also resistant to corrosion, making it ideal for various industrial applications.The significance of antimonial nickel can be observed in several fields, including electronics, automotive, and even aerospace industries. In electronics, this alloy is often used in connectors and other components that require both conductivity and durability. The presence of antimony improves the mechanical properties of nickel, allowing it to withstand higher stresses without deforming. This is crucial in electronic devices where reliability is paramount.In the automotive sector, antimonial nickel is utilized in manufacturing parts that are exposed to harsh conditions. For instance, components such as gears, bearings, and valves benefit from the added strength and wear resistance provided by this alloy. As vehicles become more advanced and require materials that can endure extreme temperatures and pressures, the demand for antimonial nickel continues to grow.Moreover, the aerospace industry has also recognized the potential of antimonial nickel. Aircraft components must meet stringent safety and performance standards, and this alloy’s properties make it a suitable choice for critical parts. The lightweight nature of nickel combined with the strengthening effects of antimony allows engineers to design components that are both strong and lightweight, contributing to overall fuel efficiency and performance.The production of antimonial nickel involves careful processing to ensure that the correct proportions of nickel and antimony are achieved. Typically, the alloy is created through melting and casting techniques, which allow for precise control over the material’s composition. This meticulous approach ensures that the final product meets the required specifications for its intended application.Despite its advantages, the use of antimonial nickel is not without challenges. The cost of antimony can fluctuate based on market demand, which may affect the overall price of this alloy. Additionally, while antimony provides valuable properties, it is essential to handle it with care due to its toxicity in certain forms. Therefore, manufacturers must adhere to strict safety guidelines when working with this material.In conclusion, antimonial nickel is a remarkable alloy that showcases the potential of combining different elements to create materials with enhanced properties. Its applications across various industries highlight its importance in modern technology and engineering. As research continues to explore new ways to utilize antimonial nickel, we can expect to see further innovations that leverage its unique characteristics, ultimately contributing to advancements in numerous fields. Understanding and mastering the properties of antimonial nickel not only opens doors to new possibilities but also emphasizes the importance of interdisciplinary collaboration in material science.

材料科学的世界充满了具有独特性质和应用的迷人化合物。其中一个这样的化合物是antimonial nickel，它因其独特的特性而受到关注。Antimonial nickel指的是一种含有锑的镍合金，锑是一种以增强金属硬度和强度而闻名的类金属。这种组合创造出一种不仅耐用而且耐腐蚀的材料，使其在各种工业应用中理想。Antimonial nickel的重要性可以在多个领域中观察到，包括电子、汽车甚至航空航天工业。在电子产品中，这种合金通常用于需要导电性和耐用性的连接器和其他组件。锑的存在改善了镍的机械性能，使其能够承受更高的应力而不变形。这在电子设备中至关重要，因为可靠性是首要考虑。在汽车行业中，antimonial nickel被用于制造暴露于恶劣条件下的部件。例如，齿轮、轴承和阀门等组件受益于这种合金提供的额外强度和耐磨性。随着车辆变得更加先进并需要能够承受极端温度和压力的材料，对antimonial nickel的需求持续增长。此外，航空航天行业也认识到了antimonial nickel的潜力。飞机部件必须符合严格的安全和性能标准，而这种合金的特性使其成为关键部件的合适选择。镍的轻量特性结合锑的强化效果使工程师能够设计出既强大又轻便的组件，从而有助于整体燃油效率和性能。Antimonial nickel的生产涉及仔细的加工，以确保达到镍和锑的正确比例。通常，这种合金是通过熔炼和铸造技术制造的，这允许对材料成分进行精确控制。这种细致的方法确保最终产品符合其预期应用的要求。尽管有其优势，antimonial nickel的使用并非没有挑战。锑的成本可能会根据市场需求波动，这可能影响这种合金的总体价格。此外，虽然锑提供了宝贵的属性，但由于其某些形式的毒性，必须小心处理。因此，制造商在使用这种材料时必须遵循严格的安全指南。总之，antimonial nickel是一种显著的合金，展示了将不同元素结合以创造具有增强特性的材料的潜力。它在各个行业中的应用突显了它在现代技术和工程中的重要性。随着研究继续探索利用antimonial nickel的新方法，我们可以期待看到进一步的创新，利用其独特的特性，最终促进多个领域的进步。理解和掌握antimonial nickel的特性不仅为新可能性打开了大门，还强调了材料科学中跨学科合作的重要性。