grip resistance

简明释义

滑动阻力

英英释义

例句

1.This paint has a special formula that enhances grip resistance 抓地力 on stairs.

这种油漆具有特殊配方，可以增强楼梯的抓地力。

2.Athletes often test the grip resistance 抓地力 of their equipment before competitions.

运动员在比赛前通常会测试他们设备的抓地力。

3.When selecting tires for your car, consider their grip resistance 抓地力 in different weather conditions.

在为您的汽车选择轮胎时，请考虑它们在不同天气条件下的抓地力。

4.The new sports shoes have excellent grip resistance 抓地力, making them perfect for running on wet surfaces.

这款新运动鞋具有出色的抓地力，非常适合在湿滑的地面上跑步。

5.The flooring material was chosen for its high grip resistance 抓地力 to prevent slips and falls.

该地板材料因其高抓地力而被选中，以防止滑倒和摔跤。

作文

In the realm of engineering and design, the term grip resistance refers to the ability of a surface or material to resist slipping or sliding when force is applied. This characteristic is crucial in various applications, from the soles of shoes to the handles of tools and even the surfaces of vehicles. Understanding grip resistance is essential for ensuring safety and performance in everyday products.For instance, consider the footwear industry. Shoes designed for sports activities must have high grip resistance to prevent athletes from slipping during critical moments in their performance. The materials used in the outsole, such as rubber compounds with specific tread patterns, are engineered to maximize grip resistance. When a runner sprints on a track, the shoes need to provide adequate traction to allow for quick starts and stops without losing balance.Moreover, grip resistance is not only important in sports but also in everyday life. For example, kitchen utensils often feature handles that are designed with textured surfaces to enhance grip resistance. This prevents the tools from slipping out of a user's hands while cooking, which could lead to accidents and injuries. In this context, manufacturers invest considerable effort into selecting materials that offer both comfort and grip resistance.Additionally, in the automotive industry, grip resistance plays a vital role in tire design. Tires must provide sufficient grip resistance on various road surfaces to ensure vehicle stability and control. Engineers conduct extensive tests to evaluate how different tire compositions and tread designs affect grip resistance, especially under adverse weather conditions like rain or snow. A tire with poor grip resistance can lead to dangerous situations, such as skidding or hydroplaning.The significance of grip resistance extends to other fields as well, including construction and manufacturing. Tools and machinery often require components that maintain a secure grip, preventing slippage during operation. For example, power tools are designed with grips that enhance grip resistance, allowing users to operate them safely and effectively without the risk of dropping or losing control.In conclusion, grip resistance is a fundamental property that affects a wide range of products and industries. From athletic footwear to automotive tires, understanding and optimizing grip resistance is crucial for enhancing safety and performance. As technology advances, we can expect to see even more innovative solutions that improve grip resistance across various applications, ultimately leading to better user experiences and increased safety in our daily lives.

在工程和设计领域，术语握持阻力指的是表面或材料在施加力时抵抗滑动或滑移的能力。这一特性在各种应用中至关重要，从鞋子的鞋底到工具的把手，甚至车辆的表面。理解握持阻力对于确保日常产品的安全性和性能是必不可少的。例如，考虑一下鞋类行业。为运动活动设计的鞋子必须具有高握持阻力，以防止运动员在表现的关键时刻滑倒。鞋底使用的材料，如具有特定花纹的橡胶化合物，经过精心设计，以最大化握持阻力。当跑步者在跑道上冲刺时，鞋子需要提供足够的牵引力，以便在不失去平衡的情况下快速起步和停止。此外，握持阻力不仅在体育中重要，在日常生活中也同样重要。例如，厨房用具通常具有设计有纹理表面的把手，以增强握持阻力。这可以防止工具在烹饪时从用户手中滑落，从而导致意外和伤害。在这种情况下，制造商在选择既舒适又具有握持阻力的材料上投入了大量精力。此外，在汽车工业中，握持阻力在轮胎设计中发挥着至关重要的作用。轮胎必须在各种路面上提供足够的握持阻力，以确保车辆的稳定性和控制性。工程师进行广泛的测试，以评估不同轮胎成分和花纹设计如何影响握持阻力，尤其是在雨雪等恶劣天气条件下。具有较差握持阻力的轮胎可能导致危险情况，例如打滑或水漂。握持阻力的重要性还延伸到其他领域，包括建筑和制造。工具和机械通常需要保持安全握持的组件，以防止在操作过程中滑动。例如，电动工具设计有增强握持阻力的握柄，使用户能够安全有效地操作，而不会面临掉落或失控的风险。总之，握持阻力是一种影响广泛产品和行业的基本属性。从运动鞋到汽车轮胎，理解和优化握持阻力对于提高安全性和性能至关重要。随着技术的进步，我们可以期待看到更多创新解决方案，改善各种应用中的握持阻力，最终提升用户体验并增加我们日常生活中的安全性。