bearing strength

简明释义

支承强度

英英释义

例句

1.The concrete used in the foundation must have a high bearing strength to support the weight of the building.

基础中使用的混凝土必须具有高承载强度以支撑建筑物的重量。

2.The specifications required a minimum bearing strength of 3000 psi for the materials used.

规格要求所用材料的最低承载强度为3000 psi。

3.The bearing strength of the steel beams is crucial for the structural integrity of the bridge.

钢梁的承载强度对于桥梁的结构完整性至关重要。

4.Engineers test the bearing strength of soil before construction begins.

工程师在施工前测试土壤的承载强度。

5.A higher bearing strength allows for taller buildings and more complex designs.

更高的承载强度允许建造更高的建筑和更复杂的设计。

作文

The concept of bearing strength is crucial in the fields of engineering and construction. It refers to the capacity of a material or structure to support loads without failure. Understanding bearing strength is essential for ensuring the safety and stability of buildings, bridges, and other structures. In engineering, materials are often tested to determine their bearing strength, which can vary significantly depending on factors such as composition, density, and environmental conditions.For example, concrete is widely used in construction due to its high bearing strength. When mixed properly, concrete can withstand heavy loads, making it an ideal choice for foundations and structural elements. However, if the concrete mix is not adequate, the bearing strength may be compromised, leading to potential structural failures. Engineers must conduct thorough analyses and tests to ensure that the materials used meet the required bearing strength specifications.Similarly, soil bearing strength is another critical aspect that engineers must consider when designing foundations. The ability of soil to support the weight of a structure is determined by its bearing strength, which can be influenced by moisture content, compaction, and type of soil. For instance, clay soils typically have lower bearing strength compared to sandy soils, which means that additional measures may be needed, such as deep foundations or soil stabilization techniques, to ensure that the structure remains stable.In addition to construction, the concept of bearing strength applies to various industries, including aerospace and automotive engineering. Components in these fields must be designed to withstand significant forces while maintaining their integrity. For example, the wings of an aircraft must possess sufficient bearing strength to support the weight of the aircraft during flight, taking into account factors such as aerodynamics and material fatigue.To sum up, bearing strength is a fundamental principle that underpins many aspects of engineering and design. It ensures that structures can safely support loads and resist failure under various conditions. As technology advances, engineers continue to develop new materials and methods to enhance bearing strength, ultimately leading to safer and more efficient structures. Understanding this concept is vital for anyone involved in the fields of construction and engineering, as it directly impacts the safety and longevity of the structures we rely on every day.

‘承载力’的概念在工程和建筑领域至关重要。它指的是材料或结构在不发生破坏的情况下支撑荷载的能力。理解‘承载力’对于确保建筑、桥梁和其他结构的安全性和稳定性至关重要。在工程中，材料通常会经过测试以确定其‘承载力’，这可能因成分、密度和环境条件等因素而有显著差异。例如，混凝土由于其高‘承载力’而被广泛应用于建筑。当混合得当时，混凝土能够承受重负荷，使其成为基础和结构元素的理想选择。然而，如果混凝土混合不充分，其‘承载力’可能会受到影响，从而导致潜在的结构失效。工程师必须进行全面的分析和测试，以确保所用材料符合所需的‘承载力’规格。同样，土壤‘承载力’是工程师在设计基础时必须考虑的另一个关键方面。土壤支撑结构重量的能力由其‘承载力’决定，这可能受到水分含量、压实程度和土壤类型的影响。例如，粘土土壤的‘承载力’通常低于沙土，因此可能需要采取额外措施，例如深基础或土壤加固技术，以确保结构保持稳定。除了建筑，‘承载力’的概念还适用于包括航空航天和汽车工程在内的各个行业。这些领域的组件必须设计得足够强大，以承受重大力量，同时保持其完整性。例如，飞机的机翼必须具备足够的‘承载力’以支撑飞机在飞行中的重量，同时考虑气动性能和材料疲劳等因素。总之，‘承载力’是支撑工程和设计许多方面的基本原则。它确保结构能够安全地支撑荷载，并在各种条件下抵抗失效。随着技术的进步，工程师们不断开发新材料和方法来增强‘承载力’，最终导致更安全、更高效的结构。理解这一概念对任何参与建筑和工程领域的人来说都是至关重要的，因为它直接影响到我们每天依赖的结构的安全性和耐久性。