antifriction property

简明释义

抗磨性

英英释义

例句

1.The design of the sliding mechanism relies heavily on its antifriction property 抗摩擦性能 to ensure smooth operation.

滑动机制的设计在很大程度上依赖于其抗摩擦性能以确保平稳运行。

2.The antifriction property 抗摩擦性能 of this coating helps reduce energy consumption in machinery.

这种涂层的抗摩擦性能有助于减少机械的能耗。

3.In the manufacturing of bearings, materials with high antifriction property 抗摩擦性能 are essential for longevity.

在轴承制造中，具有高抗摩擦性能的材料对于延长使用寿命至关重要。

4.The new lubricant has excellent antifriction property 抗摩擦性能, which reduces wear on engine parts.

新润滑剂具有优异的抗摩擦性能，能减少发动机部件的磨损。

5.Researchers are developing a new polymer with enhanced antifriction property 抗摩擦性能 for automotive applications.

研究人员正在开发一种用于汽车应用的新型聚合物，具有增强的抗摩擦性能。

作文

The concept of antifriction property is crucial in various fields, particularly in engineering and materials science. It refers to the ability of a material or surface to reduce friction between two interacting surfaces. Understanding and optimizing this property can lead to significant improvements in the performance and longevity of mechanical systems. For instance, in machinery, high levels of friction can cause excessive wear and tear, leading to failure or the need for frequent maintenance. Therefore, engineers often seek materials with enhanced antifriction property to ensure smoother operation and increased durability.In automotive applications, the antifriction property is vital for components such as bearings, gears, and seals. These parts are subjected to constant movement and pressure, making them susceptible to friction-related damage. By utilizing lubricants or specially designed materials, manufacturers can enhance the antifriction property of these components. This not only improves efficiency but also contributes to better fuel economy and reduced emissions, which are critical factors in today's environmentally conscious market.Moreover, the antifriction property is not limited to mechanical systems. It plays a significant role in consumer products as well. For example, in the design of sports equipment, the antifriction property can influence performance. A tennis racket with a surface that minimizes friction can allow players to generate more spin and speed on the ball, enhancing their overall game. Similarly, in the world of electronics, the antifriction property can affect the functionality of devices such as smartphones and laptops, where smooth operation is essential for user experience.Research into materials with superior antifriction property has led to innovations such as composite materials and advanced coatings. These developments have opened up new possibilities for industries ranging from aerospace to robotics. For instance, the aerospace industry relies heavily on materials that exhibit excellent antifriction property to ensure the safety and efficiency of aircraft. Components like turbine blades and landing gear must withstand extreme conditions while minimizing friction to operate effectively.In conclusion, the antifriction property is a fundamental aspect of material science that impacts a wide range of applications. Its importance cannot be overstated, as it directly affects the efficiency, durability, and performance of various systems and products. As technology continues to advance, the pursuit of materials with enhanced antifriction property will remain a key focus for researchers and engineers alike. By understanding and leveraging this property, we can create more efficient, reliable, and sustainable solutions for the challenges we face in modern society.

“抗摩擦性能”这一概念在多个领域中至关重要，尤其是在工程和材料科学中。它指的是材料或表面在两个相互作用表面之间减少摩擦的能力。理解和优化这一性能可以显著改善机械系统的性能和寿命。例如，在机械设备中，高摩擦水平会导致过度磨损，从而导致故障或需要频繁维护。因此，工程师们通常寻求具有增强“抗摩擦性能”的材料，以确保更平稳的操作和更长的耐用性。在汽车应用中，“抗摩擦性能”对于轴承、齿轮和密封等组件至关重要。这些部件受到持续的运动和压力，使其易受摩擦相关损伤。通过使用润滑剂或特殊设计的材料，制造商可以增强这些组件的“抗摩擦性能”。这不仅提高了效率，还有助于更好的燃油经济性和减少排放，这在当今环保意识日益增强的市场中至关重要。此外，“抗摩擦性能”并不仅限于机械系统。它在消费产品中也扮演着重要角色。例如，在运动器材的设计中，“抗摩擦性能”可以影响性能。一把表面能最小化摩擦的网球拍可以让球员在球上产生更多的旋转和速度，从而增强他们的整体表现。同样，在电子产品领域，“抗摩擦性能”可以影响智能手机和笔记本电脑等设备的功能，这些设备的顺畅运行对用户体验至关重要。对具有优越“抗摩擦性能”的材料的研究已经导致了复合材料和先进涂层等创新。这些发展为从航空航天到机器人技术等行业开辟了新的可能性。例如，航空航天工业在确保飞机的安全性和效率方面严重依赖表现出优异“抗摩擦性能”的材料。涡轮叶片和起落架等部件必须承受极端条件，同时最小化摩擦以有效运作。总之，“抗摩擦性能”是材料科学的一个基本方面，影响着广泛的应用。其重要性不容低估，因为它直接影响着各种系统和产品的效率、耐用性和性能。随着技术的不断进步，追求具有增强“抗摩擦性能”的材料将继续成为研究人员和工程师的关键焦点。通过理解和利用这一特性，我们可以为现代社会面临的挑战创造更高效、更可靠和更可持续的解决方案。