folding strength

简明释义

抗折强度

英英释义

例句

1.A high folding strength is essential for origami paper to maintain its shape after being folded.

高折叠强度对于折纸纸张保持形状至关重要。

2.Packaging design often requires an analysis of the folding strength of various materials.

包装设计通常需要对各种材料的折叠强度进行分析。

3.The engineer measured the folding strength of the fabric to determine its suitability for outdoor tents.

工程师测量了织物的折叠强度以确定其是否适合用于户外帐篷。

4.The designer tested the cardboard's folding strength to ensure it could withstand packaging without damage.

设计师测试了纸板的折叠强度，以确保其在包装过程中不会损坏。

5.When choosing a material for the book cover, we considered its folding strength to prevent creases.

在选择书籍封面的材料时，我们考虑了它的折叠强度以防止出现折痕。

作文

The concept of folding strength is crucial in various fields, especially in engineering and material science. It refers to the ability of a material or structure to withstand forces that attempt to fold or bend it. This property is particularly important in the design of products that must endure significant stress without failing. For instance, when engineers design bridges, they must consider the folding strength of the materials used to ensure that the bridge can support the weight of vehicles and resist environmental forces such as wind and earthquakes.In everyday life, we encounter numerous examples where folding strength plays a vital role. Take, for example, the design of a laptop. The hinges of a laptop must possess adequate folding strength to allow the device to open and close smoothly while also ensuring that the screen remains intact under pressure. If the hinges were made from a material with insufficient folding strength, they would easily break or become misaligned, rendering the laptop unusable.Furthermore, the packaging industry heavily relies on the principles of folding strength. Boxes and containers are often designed to be folded for easy storage and transportation. The folding strength of the cardboard or plastic used in these containers determines how much weight they can bear without collapsing. A well-designed package not only protects its contents but also minimizes shipping costs by maximizing space efficiency.In architecture, the folding strength of materials is essential for creating structures that are both aesthetically pleasing and structurally sound. Architects often experiment with different shapes and forms, relying on materials that can withstand bending and folding forces. For example, modern buildings often incorporate curved surfaces, which require materials with high folding strength to maintain their integrity while providing a unique visual appeal.Moreover, advancements in technology have led to the development of new materials with enhanced folding strength. Composite materials, which combine different substances to achieve superior performance, are increasingly used in aerospace and automotive industries. These materials can withstand greater forces while being lighter than traditional materials, making them ideal for applications where weight reduction is critical.The importance of understanding folding strength extends beyond engineering and design; it also has implications for sustainability. By selecting materials with optimal folding strength, manufacturers can reduce waste and improve the lifespan of products. For instance, using recyclable materials that exhibit high folding strength can lead to more durable products that require less frequent replacement, ultimately benefiting the environment.In conclusion, folding strength is a fundamental property that influences various aspects of design and engineering. Its significance spans multiple industries, from construction to consumer electronics, and understanding it is essential for creating products that are safe, efficient, and sustainable. As technology continues to advance, the exploration and application of materials with exceptional folding strength will undoubtedly play a pivotal role in shaping the future of design and manufacturing.

“折叠强度”这一概念在多个领域中至关重要，尤其是在工程和材料科学中。它指的是材料或结构抵抗试图折叠或弯曲的力量的能力。这一特性在设计必须承受显著压力而不失败的产品时尤为重要。例如，当工程师设计桥梁时，他们必须考虑所用材料的“折叠强度”，以确保桥梁能够支撑车辆的重量，并抵御风和地震等环境力量。在日常生活中，我们遇到的许多例子中，“折叠强度”发挥着至关重要的作用。以笔记本电脑的设计为例。笔记本电脑的铰链必须具备足够的“折叠强度”，以便设备能够顺利打开和关闭，同时确保屏幕在压力下保持完整。如果铰链由一种“折叠强度”不足的材料制成，它们将很容易断裂或变形，从而使笔记本电脑无法使用。此外，包装行业在很大程度上依赖于“折叠强度”的原理。箱子和容器常常被设计为可折叠，以便于存储和运输。用于这些容器的纸板或塑料的“折叠强度”决定了它们在不塌陷的情况下能够承受多少重量。设计良好的包装不仅保护其内容物，还通过最大化空间效率来降低运输成本。在建筑学中，材料的“折叠强度”对于创造既美观又坚固的结构至关重要。建筑师经常尝试不同的形状和形式，依赖能够承受弯曲和折叠力量的材料。例如，现代建筑通常采用曲面，这需要具有高“折叠强度”的材料以保持其完整性，同时提供独特的视觉吸引力。此外，技术的进步导致了具有增强“折叠强度”的新材料的发展。复合材料通过结合不同的物质以达到卓越的性能，越来越多地用于航空航天和汽车工业。这些材料能够承受更大的力量，同时比传统材料更轻，非常适合对减重至关重要的应用。理解“折叠强度”的重要性超越了工程和设计；它也对可持续性产生影响。通过选择具有最佳“折叠强度”的材料，制造商可以减少浪费并提高产品的使用寿命。例如，使用具有高“折叠强度”的可回收材料可以生产出更耐用的产品，这些产品需要更少的更换频率，从而最终有利于环境。总之，“折叠强度”是影响设计和工程各个方面的基本属性。它的重要性跨越多个行业，从建筑到消费电子，理解它对创造安全、高效和可持续的产品至关重要。随着技术的不断进步，探索和应用具有卓越“折叠强度”的材料无疑将在塑造设计和制造的未来中发挥关键作用。