resistance to cracking

简明释义

抗裂性

英英释义

例句

1.The new concrete mix has improved resistance to cracking, making it ideal for outdoor structures.

这种新的混凝土配方具有更好的抗裂性，非常适合用于户外结构。

2.The manufacturer claims that their tiles have superior resistance to cracking compared to competitors.

制造商声称他们的瓷砖相比竞争对手具有更优越的抗裂性。

3.Proper curing of the pavement can enhance its resistance to cracking over time.

适当的养护可以随着时间的推移提高路面的抗裂性。

4.Engineers are testing materials for their resistance to cracking under extreme temperatures.

工程师正在测试材料在极端温度下的抗裂性。

5.This polymer coating provides excellent resistance to cracking in harsh environments.

这种聚合物涂层在恶劣环境中提供了优良的抗裂性。

作文

In today's world, where materials science plays a crucial role in various industries, understanding the properties of materials is essential. One important property that engineers and scientists often consider is the resistance to cracking. This term refers to a material's ability to withstand the formation of cracks when subjected to stress or environmental factors. The significance of resistance to cracking cannot be overstated, as it directly impacts the durability and longevity of products used in construction, manufacturing, and even daily life. For instance, concrete is one of the most widely used construction materials globally. Its resistance to cracking is vital for ensuring the structural integrity of buildings, bridges, and roads. When concrete is mixed and poured, it undergoes a curing process that allows it to harden and gain strength. However, if the curing process is not managed correctly or if the concrete is exposed to extreme temperatures, it can develop cracks. Engineers must take into account the resistance to cracking when designing structures to ensure they can withstand environmental stresses over time.Moreover, the resistance to cracking of materials is also a critical factor in the aerospace industry. Aircraft components are subjected to high levels of stress during flight, and any cracks in these materials can lead to catastrophic failures. Therefore, manufacturers invest heavily in research and development to create materials with enhanced resistance to cracking. Advanced composites and alloys are often used to improve performance and safety in aerospace applications.In addition to construction and aerospace, the automotive industry also benefits from materials with high resistance to cracking. Car manufacturers are constantly seeking ways to improve the performance and safety of their vehicles. This includes using materials that can withstand the rigors of daily use, such as temperature fluctuations, impacts, and vibrations. By selecting materials with superior resistance to cracking, manufacturers can produce vehicles that last longer and require less maintenance.Furthermore, the electronics industry relies on materials with good resistance to cracking to ensure the reliability of devices. Smartphones, laptops, and other electronic gadgets are often subjected to drops and impacts, which can cause cracks in their casings or internal components. Using materials designed to have a high resistance to cracking can help prevent damage and extend the lifespan of these devices.In conclusion, the concept of resistance to cracking is integral to various fields, from construction to aerospace and electronics. Understanding this property allows engineers and designers to select appropriate materials that ensure safety, durability, and functionality. As technology continues to advance, the development of new materials with enhanced resistance to cracking will play a pivotal role in shaping the future of industries worldwide. By prioritizing this property, we can create safer, more reliable products that meet the demands of modern society.

在当今世界，材料科学在各个行业中发挥着至关重要的作用，理解材料的特性是必不可少的。工程师和科学家经常考虑的一个重要特性是抗裂性。这个术语指的是材料在受到压力或环境因素影响时抵御裂纹形成的能力。抗裂性的重要性不容小觑，因为它直接影响到建筑、制造甚至日常生活中使用产品的耐用性和使用寿命。例如，混凝土是全球使用最广泛的建筑材料之一。其抗裂性对于确保建筑物、桥梁和道路的结构完整性至关重要。当混凝土被混合和浇筑时，它会经历一个固化过程，使其硬化并获得强度。然而，如果固化过程管理不当，或者混凝土暴露在极端温度下，就可能会产生裂缝。工程师在设计结构时必须考虑到抗裂性，以确保它们能够承受时间带来的环境压力。此外，材料的抗裂性在航空航天工业中也是一个关键因素。飞机部件在飞行过程中承受高水平的压力，任何材料中的裂缝都可能导致灾难性的故障。因此，制造商在研发方面投入大量资金，以创造具有增强抗裂性的材料。先进的复合材料和合金通常被用于提高航空航天应用的性能和安全性。除了建筑和航空航天，汽车工业也受益于具有高抗裂性的材料。汽车制造商不断寻求改善其车辆性能和安全性的方法。这包括使用能够承受日常使用压力的材料，例如温度波动、冲击和振动。通过选择具有优越抗裂性的材料，制造商可以生产出更持久且维护需求更低的车辆。此外，电子行业依赖于具有良好抗裂性的材料来确保设备的可靠性。智能手机、笔记本电脑和其他电子设备经常受到跌落和冲击，这可能导致外壳或内部组件出现裂缝。使用设计上具有高抗裂性的材料可以帮助防止损坏并延长这些设备的使用寿命。总之，抗裂性的概念对建筑、航空航天和电子等多个领域至关重要。理解这一特性使工程师和设计师能够选择适当的材料，从而确保安全、耐用和功能性。随着技术的不断进步，具有增强抗裂性的新材料的发展将在塑造未来各行业中发挥关键作用。通过优先考虑这一特性，我们可以创造出更安全、更可靠的产品，以满足现代社会的需求。