aggregate breaking force

简明释义

钢丝破断拉力总和钢丝绳破断力

英英释义

例句

1.In material testing, the aggregate breaking force 总破坏力 determines the durability of concrete blocks.

在材料测试中，aggregate breaking force 总破坏力决定了混凝土块的耐久性。

2.The aggregate breaking force 总破坏力 of the steel cable was tested to ensure safety in the construction project.

钢缆的aggregate breaking force 总破坏力经过测试，以确保建筑项目的安全。

3.The engineer calculated the aggregate breaking force 总破坏力 of the bridge to ensure it can withstand heavy loads.

工程师计算了桥梁的aggregate breaking force 总破坏力，以确保它能够承受重载。

4.The report included the aggregate breaking force 总破坏力 measurements for various materials used in the project.

报告中包括了项目中使用的各种材料的aggregate breaking force 总破坏力测量值。

5.Understanding the aggregate breaking force 总破坏力 is crucial for designing safe structures.

理解aggregate breaking force 总破坏力对于设计安全结构至关重要。

作文

The concept of aggregate breaking force is essential in various fields, particularly in engineering and materials science. Understanding this term requires a grasp of the fundamental principles of how materials behave under stress. The aggregate breaking force refers to the maximum load that a material or structure can withstand before failure occurs. This measurement is crucial for ensuring safety and reliability in construction and manufacturing processes.In engineering, materials are often subjected to different types of forces, such as tensile, compressive, and shear forces. Each of these forces can affect the integrity of a material differently. For instance, when a beam is loaded, it experiences bending moments that can lead to tensile stress on one side and compressive stress on the other. The aggregate breaking force helps engineers determine the point at which the material will fail, allowing them to design structures that can support expected loads without collapsing.Moreover, the aggregate breaking force is not solely dependent on the material itself; it also varies based on factors such as temperature, humidity, and the presence of defects within the material. For example, a steel beam might have a high aggregate breaking force under normal conditions, but if it is exposed to extreme temperatures or corrosive environments, its strength could diminish significantly. Therefore, it is vital for engineers to consider these environmental factors when calculating the aggregate breaking force of materials used in construction.In practical applications, understanding the aggregate breaking force can influence the choice of materials for specific projects. For instance, in constructing bridges, engineers must select materials that not only have a high aggregate breaking force but also exhibit good fatigue resistance and durability. This ensures that the bridge can endure repeated loading over time without succumbing to structural failures.Furthermore, testing for aggregate breaking force is a critical step in quality control during the manufacturing process. Manufacturers often conduct tests to measure the breaking force of materials before they are used in production. This testing helps identify any weaknesses in the materials and ensures that only those that meet the required standards are utilized in construction or product development.In conclusion, the aggregate breaking force is a pivotal concept in engineering and materials science. It plays a crucial role in the design and analysis of structures, ensuring that they can withstand various forces without failing. By understanding and measuring the aggregate breaking force, engineers can create safer, more reliable structures that meet the demands of modern society. As technology advances, the methods for measuring and improving the aggregate breaking force of materials will continue to evolve, leading to even more innovative solutions in engineering and construction.

“aggregate breaking force”（聚合破坏力）的概念在多个领域中至关重要，尤其是在工程和材料科学中。理解这个术语需要掌握材料在应力下的基本行为原理。“aggregate breaking force”指的是材料或结构在发生故障之前能够承受的最大负载。这一测量对于确保建筑和制造过程的安全性和可靠性至关重要。在工程中，材料常常受到不同类型的力的作用，例如拉伸力、压缩力和剪切力。每种力对材料的完整性影响不同。例如，当一根梁被加载时，它会经历弯曲力矩，这可能导致一侧的拉伸应力和另一侧的压缩应力。“aggregate breaking force”帮助工程师确定材料失效的临界点，从而设计出能够在不坍塌的情况下支撑预期负载的结构。此外，“aggregate breaking force”不仅仅依赖于材料本身；它还会因温度、湿度和材料内部缺陷的存在而有所不同。例如，一根钢梁在正常条件下可能具有高“aggregate breaking force”，但如果暴露在极端温度或腐蚀性环境中，其强度可能会显著降低。因此，工程师在计算建筑中使用的材料的“aggregate breaking force”时，考虑这些环境因素至关重要。在实际应用中，理解“aggregate breaking force”可以影响特定项目的材料选择。例如，在建造桥梁时，工程师必须选择不仅具有高“aggregate breaking force”，而且表现出良好的疲劳抗力和耐久性的材料。这确保了桥梁可以承受长时间的重复加载，而不会遭受结构故障。此外，在制造过程中，测试“aggregate breaking force”是质量控制的关键步骤。制造商通常会进行测试，以测量在生产前材料的破坏力。这种测试有助于识别材料中的任何弱点，并确保只有符合要求标准的材料用于建筑或产品开发。总之，“aggregate breaking force”是工程和材料科学中的一个关键概念。它在结构的设计和分析中发挥着至关重要的作用，确保它们能够承受各种力量而不失效。通过理解和测量“aggregate breaking force”，工程师可以创造出更安全、更可靠的结构，以满足现代社会的需求。随着技术的进步，测量和改善材料的“aggregate breaking force”的方法将继续发展，从而在工程和建筑中带来更具创新性的解决方案。