impact strength

简明释义

冲击强度

英英释义

例句

1.In automotive design, impact strength is a critical factor for passenger safety.

在汽车设计中，抗冲击强度是乘客安全的一个关键因素。

2.Testing the impact strength of glass is vital for ensuring it can handle impacts without shattering.

测试玻璃的抗冲击强度对于确保其能够承受冲击而不破碎至关重要。

3.Higher impact strength is essential for safety equipment used in construction.

更高的抗冲击强度对于建筑工地使用的安全设备至关重要。

4.The manufacturer claims that their new plastic has superior impact strength compared to traditional materials.

制造商声称他们的新塑料相比传统材料具有优越的抗冲击强度。

5.The engineer tested the material's impact strength to ensure it could withstand heavy loads.

工程师测试了材料的抗冲击强度以确保其能够承受重载。

作文

Impact strength is a crucial property of materials that indicates their ability to withstand sudden forces or shocks without breaking. In engineering and manufacturing, understanding the impact strength (冲击强度) of materials is essential for ensuring the safety and durability of products. For instance, when designing structures such as bridges or buildings, engineers must consider how materials will react under unexpected loads, such as during an earthquake or a heavy storm. The impact strength (冲击强度) of a material helps determine whether it can endure these stresses without failing. Different materials exhibit varying levels of impact strength (冲击强度). Metals, for example, typically have higher impact strength compared to plastics or ceramics. This is due to their atomic structure, which allows them to absorb and dissipate energy more effectively. When selecting materials for specific applications, engineers often conduct tests to measure the impact strength (冲击强度) of different options. These tests usually involve dropping a weight onto a sample and measuring how much energy is absorbed before the material fractures. The importance of impact strength (冲击强度) extends beyond just construction. In the automotive industry, for example, the safety of vehicles largely depends on the materials used in their design. Car manufacturers conduct rigorous testing to ensure that components such as bumpers and frames can withstand impacts during collisions. A vehicle with high impact strength (冲击强度) is less likely to crumple upon impact, thereby providing better protection for passengers. Moreover, in consumer products, the impact strength (冲击强度) of materials can significantly influence their lifespan. For example, smartphones and tablets are often made from glass and plastic. Manufacturers aim to create devices that can survive accidental drops without shattering. As a result, they invest in research and development to enhance the impact strength (冲击强度) of these materials, leading to the creation of tougher screens and more resilient casings. In addition to its practical applications, the concept of impact strength (冲击强度) also plays a role in environmental sustainability. As industries strive to reduce waste, choosing materials with high impact strength (冲击强度) can lead to longer-lasting products, thus minimizing the need for replacements and reducing overall resource consumption. This shift towards durable materials not only benefits manufacturers but also contributes to a more sustainable future. In conclusion, impact strength (冲击强度) is a vital characteristic that influences the design and selection of materials across various industries. Its significance is evident in engineering, automotive safety, consumer electronics, and environmental sustainability. Understanding and measuring impact strength (冲击强度) is essential for creating products that are safe, reliable, and durable. As technology advances, the continuous improvement of material properties will play a key role in shaping the future of manufacturing and engineering.

冲击强度是材料的一项关键属性，表明其在受到突然的力量或冲击时能够承受而不破裂的能力。在工程和制造中，了解材料的冲击强度（impact strength）对于确保产品的安全性和耐用性至关重要。例如，在设计桥梁或建筑物等结构时，工程师必须考虑材料在意外负荷下的反应，例如在地震或暴风雨期间。材料的冲击强度（impact strength）有助于确定它是否能承受这些应力而不发生故障。不同材料表现出不同程度的冲击强度（impact strength）。例如，金属通常比塑料或陶瓷具有更高的冲击强度。这是由于它们的原子结构，使它们能够更有效地吸收和散发能量。在选择特定应用的材料时，工程师通常会进行测试以测量不同选项的冲击强度（impact strength）。这些测试通常涉及将重物掉落到样品上，并测量在材料断裂之前吸收了多少能量。冲击强度（impact strength）的重要性不仅限于建筑领域。在汽车工业中，车辆的安全性在很大程度上取决于其设计中使用的材料。汽车制造商进行严格的测试，以确保诸如保险杠和框架等组件能够承受碰撞时的冲击。具有高冲击强度（impact strength）的车辆在碰撞时不太可能变形，从而为乘客提供更好的保护。此外，在消费产品中，材料的冲击强度（impact strength）可以显著影响其使用寿命。例如，智能手机和平板电脑通常由玻璃和塑料制成。制造商旨在生产能够在意外跌落时幸存而不破碎的设备。因此，他们投资于研发，以增强这些材料的冲击强度（impact strength），从而创造出更坚固的屏幕和更耐用的外壳。除了实际应用外，冲击强度（impact strength）的概念在环境可持续性方面也发挥着作用。随着各行业努力减少浪费，选择具有高冲击强度（impact strength）的材料可以导致产品的使用寿命更长，从而减少更换的需求，降低整体资源消耗。这种向耐用材料的转变不仅有利于制造商，还有助于实现更可持续的未来。总之，冲击强度（impact strength）是影响各行业材料设计和选择的重要特性。其重要性在工程、汽车安全、消费电子和环境可持续性中显而易见。理解和测量冲击强度（impact strength）对于创造安全、可靠和耐用的产品至关重要。随着技术的进步，材料性能的持续改善将在塑造制造和工程的未来中发挥关键作用。