breaking strength

简明释义

断裂强力

英英释义

例句

1.The manufacturer claims that the fishing line has a high breaking strength, ideal for big catches.

制造商声称，这条钓鱼线具有高断裂强度，非常适合捕捉大鱼。

2.Before using the cable, check its breaking strength to ensure safety.

在使用电缆之前，检查其断裂强度以确保安全。

3.The breaking strength of this harness is crucial for ensuring the safety of climbers.

这款安全带的断裂强度对确保攀登者的安全至关重要。

4.In construction, knowing the breaking strength of materials is essential for structural integrity.

在建筑中，了解材料的断裂强度对结构完整性至关重要。

5.The rope has a breaking strength of 1500 pounds, making it suitable for heavy lifting.

这根绳子的断裂强度为1500磅，适合重物提升。

作文

The concept of breaking strength is crucial in various fields, particularly in engineering, materials science, and construction. It refers to the maximum load or stress that a material can withstand before failure occurs. Understanding breaking strength is essential for ensuring safety and reliability in structures, products, and systems. In this essay, I will explore the importance of breaking strength, how it is measured, and its applications in real-world situations.To begin with, the significance of breaking strength cannot be overstated. In construction, for instance, engineers must ensure that the materials used can support the loads they will encounter throughout their lifespan. If a material fails due to inadequate breaking strength, it could lead to catastrophic consequences, such as building collapses or infrastructure failures. Therefore, understanding the breaking strength of materials like steel, concrete, and wood is vital for designing safe structures.Measuring breaking strength typically involves conducting standardized tests where samples of the material are subjected to increasing levels of stress until they fail. The results are usually expressed in units of force, such as pounds or newtons, per unit area, like square inches or square millimeters. These tests provide valuable data that engineers and scientists use to compare different materials and make informed decisions about which ones to use in specific applications.In addition to construction, breaking strength plays a significant role in manufacturing and product design. For example, when designing a new product, engineers must consider how much weight or stress it will need to endure during its use. A common example is the design of ropes or cables. The breaking strength of these materials determines how much load they can safely carry. If a rope has a low breaking strength, it may snap under heavy loads, leading to accidents or injuries. Thus, manufacturers must select materials with adequate breaking strength for the intended use of their products.Moreover, the concept of breaking strength extends beyond physical materials. In psychology, for instance, resilience can be viewed metaphorically as a form of breaking strength. Just as materials have limits to their strength, individuals also have limits to their emotional and psychological endurance. Understanding one’s own breaking strength can help individuals manage stress and challenges more effectively.In conclusion, the term breaking strength encompasses a wide range of meanings and applications across different fields. Whether in engineering, manufacturing, or even psychology, the concept serves as a reminder of the limits of endurance and the importance of understanding those limits. By measuring and analyzing breaking strength, we can create safer structures, reliable products, and foster personal resilience. As we continue to advance in technology and materials science, the study of breaking strength will remain a critical aspect of innovation and safety in our daily lives.

“破断强度”这一概念在多个领域中至关重要，特别是在工程、材料科学和建筑中。它指的是材料在发生故障之前所能承受的最大负载或应力。理解“破断强度”对于确保结构、产品和系统的安全性和可靠性至关重要。在这篇文章中，我将探讨“破断强度”的重要性、如何测量以及其在现实世界中的应用。首先，“破断强度”的重要性不容小觑。在建筑领域，例如，工程师必须确保所使用的材料能够支持其在整个使用寿命中所遇到的负载。如果由于“破断强度”不足而导致材料失效，可能会造成灾难性的后果，例如建筑物倒塌或基础设施失效。因此，了解像钢材、混凝土和木材等材料的“破断强度”对于设计安全的结构至关重要。测量“破断强度”通常涉及进行标准化测试，其中材料样本在施加越来越大的应力直到失败。结果通常以力的单位表示，如磅或牛顿，按单位面积（如平方英寸或平方毫米）计算。这些测试提供了宝贵的数据，工程师和科学家可以利用这些数据比较不同材料，并就特定应用选择合适的材料。除了建筑之外，“破断强度”在制造和产品设计中也起着重要作用。例如，在设计新产品时，工程师必须考虑产品在使用过程中需要承受的重量或应力。一个常见的例子是绳索或电缆的设计。这些材料的“破断强度”决定了它们可以安全承载多少负载。如果一根绳索的“破断强度”较低，它可能在重负载下断裂，从而导致事故或伤害。因此，制造商必须为其产品的预期用途选择具有足够“破断强度”的材料。此外，“破断强度”的概念不仅限于物理材料。在心理学中，例如，韧性可以比喻为一种“破断强度”。正如材料有其强度的极限，个人在情感和心理上的忍耐力也有其极限。理解自己的“破断强度”可以帮助个人更有效地管理压力和挑战。总之，“破断强度”这一术语涵盖了不同领域广泛的含义和应用。无论是在工程、制造还是心理学中，这一概念都提醒我们要认识到忍耐的极限及理解这些极限的重要性。通过测量和分析“破断强度”，我们可以创造出更安全的结构、可靠的产品，并促进个人的韧性。随着我们在技术和材料科学方面的不断进步，“破断强度”的研究将继续成为我们日常生活中创新和安全的重要组成部分。