tensile load

简明释义

拉力载荷

英英释义

例句

1.A steel wire can handle a significant tensile load without breaking.

一根钢丝可以承受相当大的拉伸载荷而不断裂。

2.Engineers must calculate the tensile load on cables when designing a suspension bridge.

工程师在设计悬索桥时必须计算电缆上的拉伸载荷。

3.The material's strength is crucial when determining its tensile load capacity.

材料的强度在确定其拉伸载荷能力时至关重要。

4.During testing, the tensile load was increased until the material failed.

在测试过程中，拉伸载荷被逐渐增加，直到材料破裂。

5.The bridge was designed to withstand a maximum tensile load of 500 tons.

这座桥的设计能够承受最大拉伸载荷为500吨。

作文

Understanding the concept of tensile load is crucial in various fields such as engineering, architecture, and materials science. A tensile load refers to the force that attempts to stretch or elongate a material. This type of load is significant because it helps engineers determine how materials will behave under stress, ensuring safety and reliability in construction and manufacturing. For instance, when designing a bridge, engineers must calculate the tensile load that the cables will experience to ensure they can support the weight of vehicles and pedestrians without failure.In practical applications, the tensile load is often measured in units such as pounds or newtons. Engineers use this measurement to select appropriate materials that can withstand the expected loads without deforming or breaking. Materials like steel and certain alloys are known for their high tensile strength, making them ideal for structures that will endure significant tensile loads. Conversely, materials with low tensile strength may be suitable for applications where tensile loads are minimal.The importance of understanding tensile load extends beyond just the selection of materials. It also plays a vital role in the design process. For example, when creating a cable-stayed bridge, engineers must consider not only the tensile load on the cables but also how these loads affect the overall stability of the structure. If the tensile load exceeds the capacity of the materials used, the entire bridge could collapse, leading to catastrophic consequences.Moreover, testing for tensile load is a fundamental aspect of quality control in manufacturing. Before materials are used in construction, they are often subjected to tensile tests to measure their strength and elasticity. These tests provide valuable data that help predict how materials will perform under real-world conditions. By understanding the limits of a material's tensile strength, manufacturers can avoid failures and ensure the longevity of their products.In summary, the concept of tensile load is integral to many industries. It involves understanding how forces interact with materials to either stretch or deform them. By accurately assessing and applying knowledge of tensile load, engineers and designers can create safer, more efficient structures and products. This understanding not only protects lives but also enhances the functionality and durability of our built environment. As technology advances, the methods for measuring and analyzing tensile loads will continue to evolve, allowing for even greater innovations in engineering and materials science.

理解tensile load的概念在工程、建筑和材料科学等多个领域至关重要。tensile load指的是试图拉伸或延长材料的力。这种载荷类型非常重要，因为它帮助工程师确定材料在应力下的行为，从而确保建筑和制造的安全性和可靠性。例如，在设计桥梁时，工程师必须计算缆索所承受的tensile load，以确保它们能够支持车辆和行人的重量而不发生故障。在实际应用中，tensile load通常以磅或牛顿为单位进行测量。工程师使用这一测量值来选择能够承受预期载荷而不会变形或断裂的适当材料。钢材和某些合金因其高抗拉强度而闻名，因此非常适合承受显著的tensile loads的结构。相反，抗拉强度较低的材料可能适用于载荷较小的应用场景。理解tensile load的重要性不仅限于材料选择，它在设计过程中也起着至关重要的作用。例如，在创建斜拉桥时，工程师必须考虑缆索上的tensile load以及这些载荷对整体结构稳定性的影响。如果tensile load超过所用材料的承载能力，整个桥梁可能会倒塌，导致灾难性后果。此外，检测tensile load是制造过程质量控制的基本方面。在材料用于建筑之前，通常会对其进行抗拉测试，以测量其强度和弹性。这些测试提供了宝贵的数据，帮助预测材料在实际条件下的表现。通过了解材料抗拉强度的极限，制造商可以避免故障，确保其产品的耐用性。总之，tensile load的概念对许多行业至关重要。它涉及理解力如何与材料相互作用，从而拉伸或变形它们。通过准确评估和应用对tensile load的知识，工程师和设计师可以创造出更安全、更高效的结构和产品。这种理解不仅保护生命，还增强了我们建成环境的功能性和耐久性。随着技术的进步，测量和分析tensile loads的方法将不断发展，从而推动工程和材料科学领域的更大创新。