transversal strength

简明释义

横向强度

英英释义

例句

1.The engineer tested the material's transversal strength to ensure it could withstand lateral forces during construction.

工程师测试了材料的横向强度以确保它能够在施工过程中承受侧向力。

2.In the design of bridges, transversal strength is crucial for maintaining stability against wind loads.

在桥梁设计中，横向强度对于抵御风荷载保持稳定至关重要。

3.A high transversal strength in composite materials makes them ideal for aerospace applications.

复合材料的高横向强度使其非常适合航空航天应用。

4.To improve the durability of the product, we need to enhance its transversal strength.

为了提高产品的耐用性，我们需要增强其横向强度。

5.The testing lab reported that the transversal strength of the new alloy exceeded expectations.

测试实验室报告称，新合金的横向强度超出了预期。

作文

The concept of transversal strength is crucial in various fields, particularly in engineering and materials science. It refers to the ability of a material to withstand forces applied perpendicular to its longitudinal axis without failing. Understanding transversal strength is essential for designing structures that can endure different types of loads, ensuring safety and durability. For instance, when engineers design bridges, they need to consider not only the weight of vehicles but also environmental factors such as wind and seismic activity. The transversal strength of the materials used in construction plays a significant role in how well the structure can resist these forces.In practical applications, the measurement of transversal strength can be performed through various testing methods, including bending tests and shear tests. These tests help determine how much load a material can bear before it deforms or breaks. For example, in the case of concrete, its transversal strength is typically lower than its compressive strength, which means that while it can bear heavy loads vertically, it may not perform as well under lateral forces. This distinction is vital for architects and engineers when selecting materials for specific applications.Moreover, the transversal strength of composite materials has gained attention in recent years due to their increasing use in industries such as aerospace and automotive. Composites often exhibit different properties when force is applied from various angles, making it essential to analyze their transversal strength. By understanding these properties, engineers can create lightweight yet strong components that enhance fuel efficiency and overall performance.In addition to engineering, the concept of transversal strength can also be found in biological studies. For instance, the bones in the human body have varying transversal strength depending on their location and function. Long bones, such as the femur, are designed to withstand significant loads from various directions. Understanding the transversal strength of bones can help medical professionals in treating fractures and designing prosthetics that mimic natural bone behavior.In conclusion, the importance of transversal strength cannot be overstated. It is a fundamental property that influences the design and functionality of materials across multiple disciplines. Whether in constructing resilient buildings or developing advanced materials for high-performance applications, the understanding of transversal strength is indispensable. As technology advances and new materials are developed, continuous research into transversal strength will further enhance our ability to create safe and efficient structures and products. Therefore, both professionals and students in related fields should prioritize gaining a comprehensive understanding of this critical concept.

“横向强度”这一概念在各个领域中都至关重要，尤其是在工程和材料科学中。它指的是材料在其纵向轴线垂直方向施加的力量下，能够承受而不发生破坏的能力。理解横向强度对于设计能够承受不同类型负载的结构至关重要，以确保安全性和耐久性。例如，当工程师设计桥梁时，他们不仅需要考虑车辆的重量，还要考虑风和地震等环境因素。在建筑中所使用材料的横向强度在结构如何抵抗这些力量方面起着重要作用。在实际应用中，横向强度的测量可以通过各种测试方法进行，包括弯曲测试和剪切测试。这些测试有助于确定材料在变形或断裂之前能够承受多少负载。例如，在混凝土的情况下，其横向强度通常低于其抗压强度，这意味着虽然它可以在垂直方向承受重负荷，但在侧向力量下的表现可能不佳。这一区别对建筑师和工程师在选择特定应用的材料时至关重要。此外，复合材料的横向强度近年来受到越来越多的关注，因为它们在航空航天和汽车等行业中的使用日益增加。复合材料在施加不同角度的力量时往往表现出不同的特性，因此分析它们的横向强度至关重要。通过了解这些特性，工程师可以制造出轻巧而坚固的部件，从而提高燃油效率和整体性能。除了工程领域，“横向强度”的概念还可以在生物学研究中找到。例如，人体的骨骼根据其位置和功能具有不同的横向强度。长骨，如股骨，设计用于承受来自各个方向的重大负荷。了解骨骼的横向强度可以帮助医疗专业人员治疗骨折并设计模仿自然骨行为的假肢。总之，横向强度的重要性不可低估。这是影响多个学科材料设计和功能的基本属性。无论是在建造坚固的建筑物还是开发高性能应用的先进材料，理解横向强度都是不可或缺的。随着技术的发展和新材料的开发，对横向强度的持续研究将进一步增强我们创造安全高效结构和产品的能力。因此，相关领域的专业人士和学生应该优先掌握这一关键概念。