maximum breaking load

简明释义

最大断裂负荷

英英释义

例句

1.The safety manual specifies the maximum breaking load 最大破断载荷 for all lifting equipment.

安全手册规定了所有起重设备的最大破断载荷 maximum breaking load。

2.Understanding the maximum breaking load 最大破断载荷 of materials is crucial for construction projects.

理解材料的最大破断载荷 maximum breaking load 对于建筑项目至关重要。

3.The rope can safely handle loads up to its maximum breaking load 最大破断载荷, beyond which it may snap.

这根绳索可以安全地承受高达其最大破断载荷 maximum breaking load 的负荷，超出这个范围可能会断裂。

4.The engineer calculated the maximum breaking load 最大破断载荷 of the cable to ensure it could support the weight of the structure.

工程师计算了电缆的最大破断载荷 maximum breaking load，以确保它能支撑结构的重量。

5.Before lifting the heavy machinery, we need to check the maximum breaking load 最大破断载荷 of the crane.

在提升重型机械之前，我们需要检查起重机的最大破断载荷 maximum breaking load。

作文

Understanding the concept of maximum breaking load is crucial in various fields such as engineering, construction, and materials science. The term refers to the maximum amount of tensile stress that a material can withstand before failure occurs. This measurement is significant because it helps engineers and designers ensure that structures and components are safe and reliable under expected loads. For instance, when designing a bridge, engineers must calculate the maximum breaking load of the materials used to guarantee that they can support the weight of vehicles, pedestrians, and environmental factors like wind or earthquakes.The maximum breaking load is determined through rigorous testing, where samples of the material are subjected to increasing amounts of stress until they fail. This process not only identifies the breaking point but also provides insights into the material’s behavior under stress. Different materials have different maximum breaking loads; for example, steel typically has a much higher breaking load than wood, making it suitable for heavy-load applications.In construction, understanding the maximum breaking load of materials ensures that buildings and infrastructure can endure the forces they encounter throughout their lifespan. For example, if a beam is designed to support a certain load, knowing its maximum breaking load helps prevent structural failures that could lead to catastrophic consequences. Engineers often apply safety factors to account for uncertainties in material properties and loading conditions, ensuring that the actual loads remain well below the maximum breaking load.Moreover, the concept of maximum breaking load extends beyond just static loads. It is also relevant in dynamic situations, such as when materials are subjected to impact or fluctuating loads. In these cases, understanding how the maximum breaking load may change under different conditions is essential for designing safe and durable products.In summary, the maximum breaking load is a fundamental concept that plays a vital role in engineering and design. It helps ensure safety and reliability by providing a clear understanding of how much load materials can handle before failing. By considering the maximum breaking load during the design process, engineers can create structures that stand the test of time and protect lives. As technology advances, new materials with enhanced properties are being developed, which may change our understanding of maximum breaking load and its applications in the future. Continuous research and testing will be necessary to adapt to these changes and maintain safety standards in engineering practices.

理解最大破坏载荷的概念在工程、建筑和材料科学等多个领域中至关重要。该术语是指材料在发生破坏之前能够承受的最大拉伸应力。这一测量非常重要，因为它帮助工程师和设计师确保结构和组件在预期载荷下是安全和可靠的。例如，在设计桥梁时，工程师必须计算所用材料的最大破坏载荷，以保证它们可以支撑车辆、行人以及风或地震等环境因素的重量。最大破坏载荷是通过严格测试确定的，其中材料样本在施加不断增加的应力直到它们破坏为止。这个过程不仅识别了破坏点，还提供了材料在应力下行为的见解。不同材料具有不同的最大破坏载荷；例如，钢材的破坏载荷通常远高于木材，这使其适合重载应用。在建筑中，了解材料的最大破坏载荷确保建筑物和基础设施能够承受它们在整个生命周期中遇到的力量。例如，如果一根梁被设计为支撑某个负载，了解其最大破坏载荷有助于防止可能导致灾难性后果的结构失败。工程师通常会应用安全系数，以考虑材料属性和载荷条件的不确定性，确保实际载荷远低于最大破坏载荷。此外，最大破坏载荷的概念不仅仅限于静态载荷。在动态情况下，例如当材料受到冲击或波动载荷时，它也相关。在这些情况下，理解最大破坏载荷在不同条件下可能如何变化对于设计安全耐用的产品至关重要。总之，最大破坏载荷是一个基本概念，在工程和设计中发挥着重要作用。它通过提供材料在破坏前能够承受多少载荷的清晰理解，帮助确保安全和可靠性。通过在设计过程中考虑最大破坏载荷，工程师可以创建经得起时间考验并保护生命的结构。随着技术的进步，新的具有增强特性的材料正在开发，这可能会改变我们对最大破坏载荷及其在未来应用的理解。持续的研究和测试将是适应这些变化并维护工程实践中的安全标准所必需的。