breaking test

简明释义

断裂试验

英英释义

例句

1.The engineers conducted a breaking test to determine the material's durability under extreme conditions.

工程师们进行了破坏性测试以确定材料在极端条件下的耐久性。

2.To ensure safety, all components must pass the breaking test before production.

为确保安全，所有组件必须在生产前通过破坏性测试。

3.During the breaking test, the team discovered that the product failed at a lower threshold than expected.

在破坏性测试中，团队发现产品在低于预期的阈值时就失败了。

4.A comprehensive breaking test is essential before launching any new technology.

在推出任何新技术之前，进行全面的破坏性测试是至关重要的。

5.The results of the breaking test showed that the prototype could withstand significant pressure.

该破坏性测试的结果表明原型能够承受相当大的压力。

作文

In the world of engineering and materials science, the term breaking test refers to a procedure used to determine the strength and durability of a material. This test is crucial for ensuring that products can withstand the forces they will encounter during their use. For instance, when designing a bridge, engineers must conduct a breaking test on the materials they intend to use, such as steel or concrete, to ensure that these materials can handle the weight of vehicles and environmental stressors over time.The breaking test typically involves applying increasing amounts of force to a sample until it fails. The point at which the material breaks is recorded, providing valuable data about its tensile strength, compressive strength, and overall resilience. This information is essential not only for safety but also for optimizing the design of structures and products. One of the most common applications of the breaking test is in the automotive industry. Car manufacturers need to ensure that the components of a vehicle can endure various stresses, such as those experienced during a crash. By conducting a breaking test on materials like metal frames, glass, and plastics, engineers can identify weaknesses that could lead to failure in real-world situations. This testing process helps in creating safer vehicles that protect passengers and drivers alike.Moreover, the breaking test is not limited to heavy industries. It also plays a significant role in consumer goods. For example, companies producing smartphones must conduct breaking tests on their devices to ensure that screens can withstand drops and impacts. This testing is vital for maintaining customer satisfaction and brand reputation, as consumers expect their devices to be durable and reliable.In addition to physical testing, modern technology has introduced computer simulations that can predict how materials will behave under stress. These simulations can serve as preliminary assessments before conducting actual breaking tests. While simulations are useful, they cannot completely replace physical tests, as real-world conditions can vary significantly. Therefore, a combination of both methods is often employed to ensure comprehensive analysis.The results from breaking tests can also lead to innovations in material science. By understanding how different materials fail, researchers can develop new composites or treatments that enhance performance. This continuous improvement cycle is vital for industries aiming to push the boundaries of what is possible with materials.In conclusion, the breaking test is an essential process that plays a critical role across various industries. From ensuring the safety of bridges and vehicles to enhancing the durability of consumer products, this testing method provides invaluable insights into material performance. As technology advances, the integration of simulation and testing will likely evolve, leading to even more robust and innovative products in the future. Understanding the significance of the breaking test is key for anyone involved in engineering, manufacturing, or product design, as it ultimately contributes to the creation of safer and more reliable products for society.

在工程和材料科学的世界中，术语破坏测试指的是一种用于确定材料强度和耐用性的程序。这个测试对于确保产品能够承受它们在使用过程中所遇到的力量至关重要。例如，在设计桥梁时，工程师必须对他们打算使用的材料（如钢或混凝土）进行破坏测试，以确保这些材料能够承受车辆的重量和环境压力。破坏测试通常涉及对样本施加逐渐增加的力量，直到其失效。记录材料断裂的点，提供关于其抗拉强度、抗压强度和整体韧性的重要数据。这些信息不仅对安全至关重要，而且对于优化结构和产品的设计也至关重要。破坏测试最常见的应用之一是在汽车工业中。汽车制造商需要确保车辆的各个部件能够承受各种压力，例如在碰撞过程中经历的压力。通过对金属框架、玻璃和塑料等材料进行破坏测试，工程师可以识别可能导致实际情况中失效的弱点。这个测试过程有助于创建更安全的车辆，以保护乘客和司机。此外，破坏测试并不仅限于重工业。它在消费品中也扮演着重要角色。例如，生产智能手机的公司必须对其设备进行破坏测试，以确保屏幕能够承受跌落和冲击。这个测试对于维护客户满意度和品牌声誉至关重要，因为消费者期望他们的设备是耐用和可靠的。除了物理测试，现代技术引入了计算机模拟，可以预测材料在压力下的表现。这些模拟可以作为实际进行破坏测试之前的初步评估。虽然模拟很有用，但它们不能完全替代物理测试，因为现实世界中的条件可能会有显著差异。因此，通常采用两种方法的结合，以确保全面分析。来自破坏测试的结果还可以推动材料科学的创新。通过了解不同材料如何失效，研究人员可以开发新的复合材料或处理方法，以增强性能。这个持续改进的循环对于希望突破材料可能性边界的行业至关重要。总之，破坏测试是一个至关重要的过程，在各个行业中发挥着关键作用。从确保桥梁和车辆的安全到增强消费产品的耐用性，这种测试方法提供了对材料性能的宝贵洞察。随着技术的进步，模拟和测试的结合可能会发展，导致未来更加稳健和创新的产品。理解破坏测试的重要性对于任何参与工程、制造或产品设计的人来说都是关键，因为它最终有助于为社会创造更安全、更可靠的产品。