antigalling compound

简明释义

1. 防粘扣油; 2. 防粘润滑油; 3. 丝扣油;

英英释义

例句

1.When assembling the gears, I applied an antigalling compound to prevent seizing.

在组装齿轮时，我涂抹了抗粘结化合物以防止卡住。

2.The use of an antigalling compound is critical in aerospace engineering to ensure reliability.

在航空航天工程中，使用抗粘结化合物是确保可靠性的关键。

3.The engineer recommended using an antigalling compound to reduce wear in the sliding components.

工程师建议使用抗粘结化合物来减少滑动部件的磨损。

4.The manufacturer specifies an antigalling compound for all rotating machinery to minimize friction.

制造商为所有旋转机械指定使用抗粘结化合物以最小化摩擦。

5.In high-pressure applications, an antigalling compound can significantly extend the lifespan of mechanical parts.

在高压应用中，抗粘结化合物可以显著延长机械部件的使用寿命。

作文

In the world of engineering and manufacturing, the term antigalling compound plays a crucial role in ensuring the longevity and efficiency of machinery. Galling is a form of wear that occurs when two metal surfaces come into contact under high pressure and relative motion. This phenomenon can lead to significant damage, including surface tearing and material loss, which ultimately affects the performance and reliability of mechanical systems. Therefore, the use of antigalling compound is essential in mitigating these adverse effects.The primary function of an antigalling compound is to provide a protective barrier between moving parts, reducing friction and wear. These compounds are typically made from various materials designed to withstand extreme conditions, such as high temperatures and pressures. By applying an antigalling compound, manufacturers can enhance the durability of components, leading to longer service life and reduced maintenance costs.One of the most common applications of antigalling compound is in the automotive industry. Engine components, such as pistons and cylinder walls, experience intense friction and heat during operation. The introduction of antigalling compound in these areas helps to prevent galling, ensuring smooth operation and improved overall performance. Additionally, it can enhance fuel efficiency by allowing engines to run more smoothly, thereby reducing energy loss due to friction.Another critical area where antigalling compound is utilized is in aerospace engineering. Aircraft components must endure extreme conditions, including high speeds and varying temperatures. The use of antigalling compound in these applications not only extends the life of the parts but also enhances safety by minimizing the risk of catastrophic failures due to wear and tear.In recent years, advancements in technology have led to the development of new types of antigalling compound. These innovative solutions often incorporate nanotechnology or advanced polymers that provide superior protection against galling. For instance, some modern antigalling compounds are engineered to self-repair minor scratches or abrasions, further extending their effectiveness and lifespan.Moreover, the environmental impact of antigalling compound production and usage is becoming increasingly important. Manufacturers are now focusing on creating eco-friendly alternatives that do not compromise performance. These green antigalling compounds are formulated from sustainable materials, reducing the ecological footprint while maintaining high levels of protection against galling.In conclusion, the significance of antigalling compound in various industries cannot be overstated. Its ability to reduce friction, wear, and potential failures makes it an indispensable component in the design and manufacturing of reliable machinery. As technology continues to evolve, we can expect to see even more effective and environmentally friendly antigalling compounds that will further enhance the efficiency and longevity of mechanical systems. Understanding the role and benefits of antigalling compound is essential for engineers and manufacturers aiming to improve their products and ensure optimal performance in their respective fields.

在工程和制造的世界中，术语抗磨损化合物在确保机械设备的耐用性和效率方面发挥着至关重要的作用。磨损是一种磨损形式，当两个金属表面在高压和相对运动下接触时，会发生这种现象。这种现象可能导致显著的损害，包括表面撕裂和材料损失，最终影响机械系统的性能和可靠性。因此，使用抗磨损化合物对于减轻这些不利影响是至关重要的。抗磨损化合物的主要功能是在运动部件之间提供保护屏障，减少摩擦和磨损。这些化合物通常由各种材料制成，旨在承受极端条件，如高温和高压力。通过应用抗磨损化合物，制造商可以增强组件的耐久性，从而延长服务寿命并降低维护成本。抗磨损化合物最常见的应用之一是在汽车行业。发动机组件，如活塞和气缸壁，在运行过程中会经历强烈的摩擦和热量。在这些区域引入抗磨损化合物有助于防止磨损，确保平稳运行并改善整体性能。此外，它还可以通过允许发动机更平稳地运行来提高燃油效率，从而减少因摩擦造成的能量损失。另一个关键领域是航空航天工程，抗磨损化合物在这里得到了广泛应用。飞机部件必须经受极端条件，包括高速和变化的温度。在这些应用中使用抗磨损化合物不仅延长了部件的使用寿命，还通过最小化因磨损造成的灾难性故障风险来增强安全性。近年来，技术的进步促使新型抗磨损化合物的开发。这些创新解决方案通常采用纳米技术或先进聚合物，提供优越的抗磨损保护。例如，一些现代抗磨损化合物被设计为能够自我修复轻微划痕或磨损，进一步延长其有效性和使用寿命。此外，抗磨损化合物的生产和使用对环境的影响正变得越来越重要。制造商现在专注于创造环保替代品，而不妨碍性能。这些绿色抗磨损化合物是由可持续材料配制而成，减少了生态足迹，同时保持高水平的抗磨损保护。总之，抗磨损化合物在各个行业的重要性不容小觑。它减少摩擦、磨损和潜在故障的能力，使其成为设计和制造可靠机械设备不可或缺的组成部分。随着技术的不断发展，我们可以期待看到更有效和环保的抗磨损化合物，进一步提高机械系统的效率和耐用性。理解抗磨损化合物的作用和好处对于希望改善产品并确保其各自领域最佳性能的工程师和制造商至关重要。