over bending

简明释义

过度弯曲

英英释义

例句

1.During the test, the component showed signs of over bending 过度弯曲, indicating it was not suitable for high-stress applications.

在测试过程中，组件显示出over bending 过度弯曲的迹象，表明它不适合高应力应用。

2.When designing the bridge, engineers had to consider the risk of over bending 过度弯曲 that could compromise its structural integrity.

在设计桥梁时，工程师们必须考虑可能导致其结构完整性受损的over bending 过度弯曲风险。

3.In manufacturing, over bending 过度弯曲 can lead to material fatigue and eventual failure of the product.

在制造过程中，over bending 过度弯曲可能导致材料疲劳和产品最终失效。

4.The technician warned that over bending 过度弯曲 of the wires could cause them to break.

技术员警告说，电线的over bending 过度弯曲可能导致它们断裂。

5.The artist noticed that over bending 过度弯曲 of the metal in her sculpture caused it to lose its intended shape.

艺术家注意到她雕塑中金属的over bending 过度弯曲使其失去了预期的形状。

作文

In the world of engineering and design, the concept of flexibility is essential. However, there is a fine line between flexibility and what can be termed as over bending. This term refers to a situation where a material or structure is bent beyond its intended limit, leading to potential failure or damage. Understanding over bending is crucial for engineers and designers alike, as it can significantly impact the safety and durability of their creations.To illustrate this point, let’s consider the example of a bridge. A bridge is designed to support a certain amount of weight while allowing for some movement due to environmental factors such as wind or temperature changes. However, if the bridge experiences too much stress—perhaps due to heavy traffic or unexpected weather conditions—it may undergo over bending. This excessive bending can lead to structural weaknesses, cracks, or even catastrophic failure.The same principle applies to various materials, including metals, plastics, and wood. Each material has a specific yield point, which is the maximum stress it can withstand before deforming permanently. When a material is subjected to forces that cause over bending, it exceeds this yield point, resulting in irreversible damage. For instance, in metalworking, if a metal sheet is bent too far, it can break or lose its integrity, making it unsuitable for its intended use.In everyday life, we encounter over bending in more subtle forms. Take, for example, the common paper clip. If you bend a paper clip slightly, it will return to its original shape. However, if you bend it too much, it will remain deformed, showcasing an example of over bending in action. This simple object serves as a reminder that everything has its limits.To prevent over bending, engineers often conduct thorough analyses and tests during the design phase. They utilize computer simulations and physical prototypes to determine how much stress a material can endure before reaching its breaking point. By understanding the limits of their materials, they can design structures that are both functional and safe. Moreover, education plays a vital role in preventing over bending. Students in engineering programs learn about the properties of materials and the importance of adhering to design specifications. They are taught to respect the limits of their tools and materials, ensuring that they do not push them beyond their capabilities.In conclusion, over bending is a critical concept in both engineering and everyday life. It serves as a reminder that while flexibility is important, there are limits that should not be exceeded. Whether designing a bridge, working with materials, or simply bending a paper clip, understanding the implications of over bending can help us create safer and more effective solutions. As we continue to innovate and push boundaries, we must always keep in mind the importance of respecting limits to avoid the pitfalls of over bending.

在工程和设计的世界中，灵活性是至关重要的概念。然而，灵活性与所谓的过度弯曲之间有一条细微的界限。这个术语指的是材料或结构被弯曲超过其预定极限的情况，导致潜在的故障或损坏。理解过度弯曲对工程师和设计师来说至关重要，因为它可以显著影响他们创作的安全性和耐用性。为了说明这一点，让我们考虑一个桥梁的例子。桥梁被设计为支持一定的重量，同时允许由于风或温度变化等环境因素造成的一些运动。然而，如果桥梁承受过多的压力——也许是由于繁重的交通或意外的天气条件——它可能会经历过度弯曲。这种过度的弯曲可能导致结构弱点、裂缝，甚至灾难性的失败。同样的原理适用于各种材料，包括金属、塑料和木材。每种材料都有一个特定的屈服点，即它能够承受的最大应力，超过这个应力就会发生永久变形。当材料受到导致过度弯曲的力量作用时，它超过了这个屈服点，导致不可逆转的损坏。例如，在金属加工中，如果金属板弯曲得太远，它可能会断裂或失去完整性，使其不适合预期用途。在日常生活中，我们以更微妙的形式遇到过度弯曲。以常见的回形针为例。如果你稍微弯曲回形针，它会恢复到原来的形状。然而，如果你弯曲得太多，它会保持变形，展示了过度弯曲在实际中的运作。这种简单的物体提醒我们，任何东西都有其极限。为了防止过度弯曲，工程师通常会在设计阶段进行全面的分析和测试。他们利用计算机模拟和物理原型来确定材料在达到破裂点之前能够承受的压力。通过了解材料的极限，他们可以设计出既实用又安全的结构。此外，教育在防止过度弯曲中起着至关重要的作用。工程专业的学生学习材料的性质以及遵循设计规范的重要性。他们被教导要尊重工具和材料的极限，确保他们不会将其推向超出能力的境地。总之，过度弯曲是工程和日常生活中的一个关键概念。它提醒我们，尽管灵活性很重要，但有一些极限不应被超越。无论是设计桥梁、处理材料，还是简单地弯曲回形针，理解过度弯曲的影响可以帮助我们创造更安全、更有效的解决方案。随着我们继续创新和突破界限，我们必须始终牢记尊重极限的重要性，以避免过度弯曲的陷阱。