bending strength

简明释义

弯曲强度

英英释义

例句

1.The engineer tested the beam for its bending strength (弯曲强度) to ensure it could support the load.

工程师测试了梁的bending strength (弯曲强度)，以确保它能承受负载。

2.The bending strength (弯曲强度) of the plastic used in this product was tested under various conditions.

在各种条件下测试了该产品中使用的塑料的bending strength (弯曲强度)。

3.A chair's bending strength (弯曲强度) is crucial for its durability and safety.

椅子的bending strength (弯曲强度) 对其耐用性和安全性至关重要。

4.In aerospace engineering, materials must have a high bending strength (弯曲强度) to withstand forces during flight.

在航空航天工程中，材料必须具有高bending strength (弯曲强度)以承受飞行中的力量。

5.Materials with high bending strength (弯曲强度) are ideal for construction applications.

具有高bending strength (弯曲强度)的材料非常适合建筑应用。

作文

Bending strength is a critical property of materials that determines their ability to withstand bending forces without breaking. This characteristic is particularly important in the fields of engineering and construction, where materials are often subjected to various loads and stresses. Understanding the concept of bending strength (抗弯强度) allows engineers and architects to select appropriate materials for specific applications, ensuring safety and durability in structures such as bridges, buildings, and furniture.When we talk about bending strength (抗弯强度), we refer to the maximum stress a material can endure before it fails in bending. This property is crucial for materials like steel, wood, concrete, and plastics. Each of these materials has a different bending strength (抗弯强度), which influences how they are used in construction. For instance, steel has a high bending strength (抗弯强度), making it ideal for structural beams that must support heavy loads. On the other hand, while wood is often used in residential construction due to its natural aesthetic and workability, its bending strength (抗弯强度) varies significantly depending on the species and moisture content.In practical applications, engineers conduct tests to measure the bending strength (抗弯强度) of materials. One common method is the three-point bending test, where a sample is supported at both ends and a load is applied at the center until it breaks. The results from this test help determine the material's performance under real-world conditions. Knowing the bending strength (抗弯强度) allows designers to predict how materials will behave when subjected to forces, leading to safer and more efficient designs.Moreover, the bending strength (抗弯强度) of a material can be influenced by various factors, including temperature, humidity, and the presence of defects or impurities. For example, a wooden beam with knots may have a lower bending strength (抗弯强度) than a clear piece of wood. Similarly, steel can lose some of its bending strength (抗弯强度) at high temperatures, which is why fireproofing measures are essential in building design.In conclusion, understanding bending strength (抗弯强度) is vital for anyone involved in material selection and structural design. It helps ensure that buildings and other structures can safely carry loads without risk of failure. As technology advances, new materials with enhanced bending strength (抗弯强度) properties are being developed, allowing for more innovative and sustainable construction practices. By continuing to study and apply the principles of bending strength (抗弯强度), we can build a safer and more resilient future.

抗弯强度是材料的一个关键特性，决定了它们在不破裂的情况下承受弯曲力的能力。这个特性在工程和建筑领域尤为重要，因为材料经常受到各种负载和压力的影响。理解抗弯强度（bending strength）的概念使工程师和建筑师能够为特定应用选择合适的材料，从而确保桥梁、建筑物和家具等结构的安全性和耐用性。当我们谈论抗弯强度（bending strength）时，我们指的是材料在弯曲前能够承受的最大应力。这一特性对于钢材、木材、混凝土和塑料等材料至关重要。这些材料每种都有不同的抗弯强度（bending strength），这影响了它们在建筑中的使用。例如，钢材具有高抗弯强度（bending strength），使其成为必须承受重载的结构梁的理想材料。另一方面，虽然木材因其自然美观和可加工性常用于住宅建筑，但其抗弯强度（bending strength）会因树种和含水量而有显著差异。在实际应用中，工程师会进行测试以测量材料的抗弯强度（bending strength）。一种常见的方法是三点弯曲测试，其中样品两端支撑，中间施加负载，直到其断裂。该测试的结果有助于确定材料在现实条件下的性能。了解抗弯强度（bending strength）使设计师能够预测材料在施加力时的行为，从而导致更安全和更高效的设计。此外，材料的抗弯强度（bending strength）可能会受到多种因素的影响，包括温度、湿度以及缺陷或杂质的存在。例如，带有结的木梁可能比一块清晰的木材具有更低的抗弯强度（bending strength）。同样，钢材在高温下可能会失去部分抗弯强度（bending strength），这就是为什么防火措施在建筑设计中至关重要。总之，理解抗弯强度（bending strength）对任何参与材料选择和结构设计的人来说都是至关重要的。它有助于确保建筑物和其他结构能够安全承载负载，而不必担心失败。随着技术的进步，具有增强抗弯强度（bending strength）特性的新品材料正在开发中，从而实现更创新和可持续的建筑实践。通过继续研究和应用抗弯强度（bending strength）的原理，我们可以建立一个更安全、更具韧性的未来。