resistance to slip

简明释义

滑动阻力

英英释义

例句

1.The shoes are designed with a sole that provides maximum resistance to slip on wet surfaces.

这些鞋子设计的鞋底在湿滑表面上提供最大的抗滑动能力。

2.In construction, choosing tiles with high resistance to slip is crucial for safety.

在建筑中，选择具有高抗滑动能力的瓷砖对安全至关重要。

3.Our new car tires offer superior resistance to slip during rainy conditions.

我们的新款汽车轮胎在雨天条件下提供卓越的抗滑动能力。

4.The kitchen floor was chosen for its resistance to slip, ensuring safety while cooking.

厨房地板因其具有抗滑动能力而被选中，以确保烹饪时的安全。

5.The new rubber material has excellent resistance to slip, making it ideal for high-traffic areas.

这种新型橡胶材料具有优异的抗滑动能力，非常适合高流量区域。

作文

In the world of engineering and materials science, understanding the concept of resistance to slip is crucial for the design and application of various materials. Resistance to slip refers to the ability of a surface or material to withstand sliding or movement against another surface without losing grip or traction. This property is particularly important in applications where friction plays a pivotal role, such as in the manufacturing of tires, conveyor belts, and even flooring materials.One of the key factors that influence resistance to slip is the texture of the material's surface. A rougher surface typically provides greater resistance to slip, as the irregularities create more friction when two surfaces come into contact. For instance, the tread pattern on a tire is specifically designed to enhance resistance to slip by providing grooves that channel water away and increase contact with the road. This is why tires with good tread patterns perform better in wet conditions, reducing the likelihood of hydroplaning.Another aspect to consider is the material composition. Different materials have varying coefficients of friction, which directly affect their resistance to slip. For example, rubber is known for its high frictional properties, making it an ideal choice for applications requiring high resistance to slip, such as in sports shoes or industrial equipment. Conversely, materials like ice or polished metal have low resistance to slip, which can lead to dangerous situations if not properly managed.Additionally, environmental factors such as moisture, temperature, and contaminants can significantly impact resistance to slip. Wet or oily surfaces can drastically reduce the friction between two materials, leading to slips and falls in everyday scenarios. This is why workplaces often implement safety measures, such as anti-slip coatings or mats, to enhance resistance to slip in areas prone to spills or moisture.Understanding resistance to slip is not only crucial for safety but also for improving the efficiency of machinery and vehicles. In automotive engineering, for example, enhancing a vehicle’s resistance to slip can improve handling and stability, especially during cornering or sudden stops. Engineers conduct extensive testing to determine the best materials and designs that provide optimal resistance to slip under various conditions.Moreover, the concept of resistance to slip extends beyond physical materials to include behavioral aspects in human activities. For instance, athletes train to improve their grip and balance, which can be seen as a form of enhancing their personal resistance to slip. By developing stronger muscles and better coordination, they can maintain stability during dynamic movements, reducing the risk of falls and injuries.In conclusion, resistance to slip is a multifaceted concept that plays a significant role in both engineering and everyday life. From the design of safer products to the enhancement of athletic performance, understanding this property helps us navigate the challenges posed by friction and movement. As technology advances, the study of resistance to slip will continue to evolve, leading to innovative solutions that enhance safety and efficiency across various fields.

在工程和材料科学的世界中，理解“抗滑动能力”的概念对于各种材料的设计和应用至关重要。“抗滑动能力”是指材料或表面在与另一个表面接触时抵御滑动或移动而不失去抓地力或牵引力的能力。这个特性在摩擦起关键作用的应用中尤为重要，例如轮胎、输送带甚至地板材料的制造。影响“抗滑动能力”的关键因素之一是材料表面的纹理。较粗糙的表面通常提供更大的“抗滑动能力”，因为不规则性在两个表面接触时产生更多的摩擦。例如，轮胎上的胎面图案专门设计用来增强“抗滑动能力”，通过提供排水沟来将水引走并增加与路面的接触。这就是为什么具有良好胎面图案的轮胎在湿滑条件下表现更好的原因，从而减少了水滑现象的可能性。另一个需要考虑的方面是材料成分。不同材料具有不同的摩擦系数，这直接影响它们的“抗滑动能力”。例如，橡胶以其高摩擦特性而闻名，使其成为需要高“抗滑动能力”的应用的理想选择，如运动鞋或工业设备。相反，冰或抛光金属等材料的“抗滑动能力”较低，如果管理不当，可能导致危险情况。此外，环境因素如湿度、温度和污染物也会显著影响“抗滑动能力”。潮湿或油腻的表面可以大幅降低两个材料之间的摩擦，导致日常情况下的滑倒和摔倒。这就是为什么工作场所经常实施安全措施，例如防滑涂层或垫子，以增强易于溅洒或潮湿区域的“抗滑动能力”。理解“抗滑动能力”不仅对安全至关重要，而且对提高机械和车辆的效率也很重要。在汽车工程中，例如，提高车辆的“抗滑动能力”可以改善操控性和稳定性，特别是在转弯或突然停车时。工程师进行广泛的测试，以确定在各种条件下提供最佳“抗滑动能力”的材料和设计。此外，“抗滑动能力”的概念不仅限于物理材料，还包括人类活动中的行为方面。例如，运动员训练以提高他们的抓地力和平衡能力，这可以被视为增强他们个人“抗滑动能力”的一种形式。通过增强肌肉和改善协调能力，他们可以在动态运动中保持稳定，从而减少跌倒和受伤的风险。总之，“抗滑动能力”是一个多方面的概念，在工程和日常生活中发挥着重要作用。从设计更安全的产品到提升运动表现，理解这一特性帮助我们应对摩擦和运动带来的挑战。随着科技的发展，对“抗滑动能力”的研究将继续演变，带来创新解决方案，增强各个领域的安全性和效率。