resistance to sliding

简明释义

滑动阻抗

英英释义

例句

1.In construction, the resistance to sliding of materials is crucial for safety.

在建筑中，材料的抗滑动能力对安全至关重要。

2.When choosing tiles for the bathroom, look for those with good resistance to sliding.

选择浴室瓷砖时，请寻找那些具有良好抗滑动能力的瓷砖。

3.The shoes are designed with a sole that provides high resistance to sliding on wet surfaces.

这些鞋子的鞋底设计提供了在湿滑表面上的高抗滑动能力。

4.The car's tires are engineered to enhance resistance to sliding on icy roads.

汽车轮胎经过设计，以增强在冰雪路面上的抗滑动能力。

5.The new rubber material shows excellent resistance to sliding.

这种新型橡胶材料表现出优异的抗滑动能力。

作文

In the realm of engineering and physics, understanding the concept of resistance to sliding is crucial for designing safe and effective structures. This term refers to the ability of a material or surface to withstand the forces that attempt to cause it to slide or move along another surface. For instance, consider a car tire on a wet road. The tire's tread pattern and rubber composition are designed to maximize resistance to sliding, ensuring that the vehicle maintains traction and stability while driving. When this resistance is compromised, such as during heavy rain or on icy surfaces, the risk of skidding increases significantly.The importance of resistance to sliding extends beyond automotive applications. In construction, engineers must consider the sliding resistance of various materials when designing buildings, bridges, and other structures. For example, a skyscraper built in an area prone to earthquakes must have a foundation that provides adequate resistance to sliding to prevent catastrophic failures during seismic events. Similarly, retaining walls used to hold back soil must be constructed with materials that offer sufficient sliding resistance to avoid landslides and erosion.Furthermore, resistance to sliding plays a vital role in everyday life. From the shoes we wear to the surfaces we walk on, the friction created by different materials affects our safety and comfort. Non-slip surfaces in kitchens and bathrooms are designed to enhance resistance to sliding, reducing the likelihood of accidents caused by slips and falls. In sports, athletes rely on equipment that maximizes their grip and minimizes sliding, allowing them to perform at their best without losing control.To quantify resistance to sliding, scientists and engineers often use the coefficient of friction, which measures the amount of frictional force between two surfaces. A higher coefficient indicates greater resistance to sliding, while a lower coefficient suggests that sliding is more likely to occur. Understanding these principles allows for better material selection and design choices in various fields, ultimately leading to safer and more efficient products and structures.In conclusion, resistance to sliding is a fundamental concept that impacts many aspects of our lives, from transportation to construction and personal safety. By recognizing its significance and applying the principles of friction and material science, we can create environments that are not only functional but also secure. Whether we are driving on the road, walking on a slippery surface, or designing a new building, the ability to resist sliding is essential for maintaining stability and safety. As technology advances, further innovations will undoubtedly enhance our understanding and application of resistance to sliding, leading to even greater improvements in safety and performance across various industries.

在工程和物理学领域，理解“resistance to sliding”这一概念对于设计安全有效的结构至关重要。这个术语指的是材料或表面抵御试图使其沿另一表面滑动或移动的力的能力。例如，考虑一下湿滑道路上的汽车轮胎。轮胎的花纹和橡胶成分旨在最大化“resistance to sliding”，确保车辆在行驶时保持牵引力和稳定性。当这种阻力受到损害时，例如在大雨或冰面上，打滑的风险就会显著增加。“resistance to sliding”的重要性不仅限于汽车应用。在建筑中，工程师在设计建筑、桥梁和其他结构时必须考虑各种材料的滑动阻力。例如，建在易发生地震地区的摩天大楼必须具备提供足够“resistance to sliding”的基础，以防止在地震事件中发生灾难性故障。同样，用于支撑土壤的挡土墙也必须使用具有足够滑动阻力的材料，以避免滑坡和侵蚀。此外，“resistance to sliding”在日常生活中也发挥着重要作用。从我们穿的鞋子到我们走的表面，不同材料之间产生的摩擦影响着我们的安全和舒适性。厨房和浴室中的防滑表面旨在增强“resistance to sliding”，减少因滑倒而导致事故的可能性。在运动中，运动员依赖于最大化抓地力并最小化滑动的设备，使他们能够在不失去控制的情况下发挥最佳水平。为了量化“resistance to sliding”，科学家和工程师通常使用摩擦系数，该系数测量两个表面之间的摩擦力。较高的摩擦系数表示更大的滑动阻力，而较低的摩擦系数则表明更有可能发生滑动。理解这些原理可以更好地选择材料和设计选择，在各个领域最终导致更安全、更高效的产品和结构。总之，“resistance to sliding”是一个基本概念，影响着我们生活的许多方面，从交通运输到建筑和个人安全。通过认识其重要性并应用摩擦和材料科学的原理，我们可以创造出不仅功能齐全而且安全的环境。无论我们是在道路上驾驶、在滑溜的表面上行走，还是设计一座新建筑，抵抗滑动的能力对于保持稳定和安全至关重要。随着技术的发展，进一步的创新无疑将增强我们对“resistance to sliding”的理解和应用，从而在各个行业中带来更大的安全和性能改善。