rupture load

简明释义

破坏荷载

英英释义

例句

1.Understanding the rupture load (破裂载荷) is crucial for the safety of pressure vessels.

理解rupture load (破裂载荷)对于压力容器的安全至关重要。

2.During the simulation, we measured the rupture load (破裂载荷) to predict failure points.

在模拟过程中，我们测量了rupture load (破裂载荷)以预测故障点。

3.The rupture load (破裂载荷) of the cable was exceeded during the stress test.

在压力测试中，电缆的rupture load (破裂载荷)被超越。

4.Engineers conducted tests to determine the rupture load (破裂载荷) of the new material.

工程师进行了测试，以确定新材料的rupture load (破裂载荷)。

5.The design of the bridge must account for the maximum rupture load (破裂载荷) to ensure safety.

桥梁的设计必须考虑到最大rupture load (破裂载荷)以确保安全。

作文

Understanding the concept of rupture load is essential in various fields, particularly in engineering and material science. The term refers to the maximum load or stress that a material can withstand before it fails or breaks apart. This failure point is critical for engineers and designers when they are developing structures and selecting materials for specific applications. Knowing the rupture load helps ensure safety and reliability in construction, manufacturing, and even in everyday products.In engineering, the rupture load is determined through rigorous testing methods. These tests often involve applying increasing amounts of stress to a sample until it ultimately fails. The data collected during these tests provides valuable insights into the material's properties, such as tensile strength, ductility, and toughness. For instance, metals typically exhibit a high rupture load, making them suitable for heavy-duty applications like bridges and buildings. In contrast, materials like plastics may have lower rupture loads, which limits their use in structural applications but makes them ideal for lightweight and flexible designs.The significance of understanding rupture load extends beyond just engineering. In the medical field, for example, the concept is crucial when designing implants and prosthetics. Medical professionals must consider the rupture load of materials used in these devices to ensure they can withstand the forces exerted by the human body without failing. A knee implant, for instance, must have a high enough rupture load to endure the weight and movement of the patient throughout their daily activities.Moreover, the rupture load is not only relevant in static applications but also in dynamic scenarios where materials are subjected to fluctuating stresses. For example, in the aerospace industry, components must be designed to handle varying loads during flight, including turbulence and changes in pressure. Engineers must carefully calculate the rupture load to prevent catastrophic failures that could endanger lives.In conclusion, the concept of rupture load is fundamental in ensuring the integrity and safety of materials across various industries. From construction to healthcare and aerospace, understanding a material's rupture load allows professionals to make informed decisions about material selection and design. As technology advances, the methods for determining rupture load will continue to evolve, leading to safer and more efficient products that enhance our daily lives.

理解rupture load的概念在各个领域都是至关重要的，尤其是在工程和材料科学中。这个术语指的是材料在失败或断裂之前可以承受的最大负载或应力。这个失败点对于工程师和设计师在开发结构和选择特定应用的材料时至关重要。了解rupture load有助于确保建筑、制造甚至日常产品的安全性和可靠性。在工程中，rupture load是通过严格的测试方法来确定的。这些测试通常涉及对样本施加逐渐增加的应力，直到最终失败。在这些测试中收集的数据提供了关于材料特性的重要见解，例如抗拉强度、延展性和韧性。例如，金属通常表现出较高的rupture load，使其适合用于桥梁和建筑等重型应用。相比之下，塑料的rupture load可能较低，这限制了它们在结构应用中的使用，但使它们非常适合轻量和灵活的设计。理解rupture load的重要性不仅限于工程领域。在医疗领域，例如，在设计植入物和假肢时，这一概念至关重要。医疗专业人员必须考虑用于这些设备的材料的rupture load，以确保它们能够承受人体施加的力量而不会失败。例如，膝关节植入物必须具有足够高的rupture load，以承受患者在日常活动中的体重和运动。此外，rupture load不仅在静态应用中相关，也在动态场景中，材料会受到波动的应力。例如，在航空航天工业中，组件必须设计成能够在飞行过程中处理变化的负载，包括湍流和压力变化。工程师必须仔细计算rupture load，以防止可能危及生命的灾难性故障。总之，rupture load的概念在确保各行业材料的完整性和安全性方面是基础性的。从建筑到医疗保健和航空航天，了解材料的rupture load使专业人员能够就材料选择和设计做出明智的决策。随着技术的进步，确定rupture load的方法将继续发展，导致更安全、更高效的产品，提升我们的日常生活。