resistance to slippage

简明释义

滑动阻力

英英释义

例句

1.The fabric used in the jacket provides resistance to slippage when worn over other layers.

夹克所用的面料在穿着其他层时提供了抗滑移能力。

2.The new tire design offers improved resistance to slippage on wet roads.

新的轮胎设计在湿滑路面上提供了更好的抗滑移能力。

3.In our tests, the material showed excellent resistance to slippage, making it ideal for flooring.

在我们的测试中，该材料表现出优异的抗滑移能力，使其非常适合用于地板。

4.The athlete's shoes are designed with a special grip that enhances resistance to slippage during competitions.

运动员的鞋子采用特殊的抓地设计，增强了比赛中的抗滑移能力。

5.This adhesive has a high resistance to slippage, ensuring that the components stay securely attached.

这种粘合剂具有很高的抗滑移能力，确保组件牢固粘附。

作文

In the world of engineering and design, concepts such as stability and reliability are paramount. One term that often arises in discussions about material science and mechanical systems is resistance to slippage. This phrase refers to the ability of a surface or material to resist movement or sliding when subjected to force. Understanding this concept is crucial for various applications, from construction to manufacturing and even in everyday products like shoes and tires.To elaborate on resistance to slippage, we can consider its significance in the construction industry. When building structures, engineers must ensure that materials can withstand different forces without sliding apart. For instance, when two surfaces come into contact, the friction between them contributes to their resistance to slippage. High-friction materials are often chosen for critical components like bridges and roads, where safety is a primary concern. If the materials used do not have adequate resistance to slippage, it could lead to catastrophic failures.Another area where resistance to slippage plays a vital role is in the automotive industry. Tires are designed with specific tread patterns that enhance their grip on the road. This grip is essentially a form of resistance to slippage that prevents vehicles from losing control during adverse weather conditions. A tire with low resistance to slippage may lead to hydroplaning on wet surfaces, which poses significant risks to drivers and passengers alike. Therefore, manufacturers invest heavily in research to improve tire designs that maximize resistance to slippage while maintaining comfort and performance.In addition to these industries, resistance to slippage is also relevant in everyday life. Consider the soles of your shoes. The material and design of the sole significantly influence how well it grips the ground. Shoes with high resistance to slippage are essential for activities like hiking or working in slippery environments. A shoe that lacks sufficient resistance to slippage can lead to falls and injuries, highlighting the importance of this concept in personal safety.Moreover, the concept of resistance to slippage extends beyond physical materials. In the realm of digital technology, we can draw parallels to data integrity and security. Just as materials need to resist slippage under physical stress, data systems must resist unauthorized access and manipulation. Cybersecurity measures are implemented to ensure that sensitive information remains intact and unaltered, akin to ensuring that materials do not slip under pressure.In conclusion, resistance to slippage is a multifaceted concept that spans various fields, including engineering, automotive design, footwear, and data security. Its importance cannot be overstated, as it directly impacts safety, functionality, and reliability. By understanding and enhancing resistance to slippage, we can create better products and systems that serve our needs effectively and safely. Whether we are walking on a slippery surface or driving in the rain, the principles behind resistance to slippage are at work, safeguarding our experiences and ensuring our well-being.

在工程和设计的世界中，稳定性和可靠性是至关重要的。一个常常在材料科学和机械系统讨论中出现的术语是对滑动的抵抗力。这个短语指的是当表面或材料受到力量作用时，抵抗运动或滑动的能力。理解这一概念对于从建筑到制造，甚至日常产品如鞋子和轮胎等各种应用都是至关重要的。为了阐述对滑动的抵抗力，我们可以考虑它在建筑行业中的重要性。在建造结构时，工程师必须确保材料能够承受不同的力量而不发生滑动。例如，当两个表面接触时，它们之间的摩擦力有助于它们的对滑动的抵抗力。高摩擦材料通常被选择用于桥梁和道路等关键组成部分，因为安全是首要考虑因素。如果所使用的材料没有足够的对滑动的抵抗力，可能会导致灾难性的失败。对滑动的抵抗力在汽车工业中也发挥着重要作用。轮胎的设计具有特定的胎面花纹，以增强其在路面上的抓地力。这种抓地力本质上是一种对滑动的抵抗力，防止车辆在恶劣天气条件下失控。低对滑动的抵抗力的轮胎可能会导致在湿滑表面上水滑行，这对驾驶员和乘客构成重大风险。因此，制造商在研究中投入大量资金，以改进轮胎设计，最大限度地提高对滑动的抵抗力，同时保持舒适性和性能。除了这些行业外，对滑动的抵抗力在日常生活中也相关。例如，考虑一下你的鞋子的鞋底。鞋底的材料和设计显著影响其对地面的抓地力。具有高对滑动的抵抗力的鞋子对于徒步旅行或在滑溜环境中工作等活动至关重要。一双缺乏足够对滑动的抵抗力的鞋子可能导致摔倒和受伤，突显了这一概念在个人安全中的重要性。此外，对滑动的抵抗力的概念超越了物理材料。在数字技术领域，我们可以将其与数据完整性和安全性进行类比。正如材料在物理压力下需要抵抗滑动一样，数据系统必须抵抗未经授权的访问和操纵。网络安全措施的实施确保敏感信息保持完整和未被更改，就像确保材料在压力下不滑动一样。总之，对滑动的抵抗力是一个多方面的概念，涵盖了多个领域，包括工程、汽车设计、鞋类和数据安全。它的重要性不容忽视，因为它直接影响安全性、功能性和可靠性。通过理解和增强对滑动的抵抗力，我们可以创造出更好的产品和系统，有效且安全地满足我们的需求。无论是在滑溜的表面上行走还是在雨中驾驶，对滑动的抵抗力背后的原理正在发挥作用，保护我们的体验并确保我们的福祉。