flexure的音标为:[ˈfleksə(r)],基本翻译为“弯曲;屈曲;弯曲度”。
速记技巧:flexure由“flex”和“ure”组成,可以理解为“弯曲”的结果,所以可以联想到与弯曲相关的词义。
例句:The metal rod was bent and flexured. 这个金属棒弯曲了。
Flexure这个词来源于拉丁语“flexus”,意为弯曲或扭动。它的变化形式包括过去式“flexured”,过去分词“flexured”和现在分词“flexuring”。
相关单词:
flexibility:灵活性,柔韧性,可弯曲性
flexible:柔韧的,灵活的,可弯曲的
flexion:弯曲,屈曲
extension:伸展,延伸,扩展
torque:扭矩,扭力,扭转力
flexile:易弯曲的,易扭曲的
flexibleness:柔韧性,灵活性
flexibleness n. 柔韧性
flexibler 更柔韧的
flexibleness of material 材料柔韧性
Flexure这个词在英语中常用于描述物体在受到外力作用下的弯曲或扭曲现象。它也常用于工程学和机械学中,描述部件的弹性变形。
常用短语:
1. flexure test 挠度测试
2. flexural rigidity 弯曲刚度
3. flexure motion 弯曲运动
4. flexure joint 弯曲关节
5. flexure amplitude 弯曲幅度
6. flexure stress 弯曲应力
7. flexure limit 弯曲极限
8. flexural strength 弯曲强度
例句:
1. The metal frame undergoes slight flexure when loaded. 金属框架在加载时发生轻微的弯曲。
2. The flexural rigidity of the steel plate is an important parameter for its mechanical properties. 钢板的弯曲刚度是衡量其机械性能的一个重要参数。
3. The flexure joint of the bridge is a crucial component that determines its stability and load-carrying capacity. 桥梁的弯曲关节是一个至关重要的组件,它决定了桥梁的稳定性和承载能力。
4. The flexure amplitude of the beam can be measured using a laser displacement sensor. 可以使用激光位移传感器来测量梁的弯曲幅度。
5. The flexural stress on the beam should not exceed its yield strength. 梁的弯曲应力不应超过其屈服强度。
6. The flexural strength of the material is determined by its material properties and manufacturing methods. 材料在弯曲方面的强度取决于其材料属性和制造方法。
7. The design of the bridge must take into account its flexural strength to ensure safe operation. 桥梁的设计必须考虑到其弯曲强度以确保安全运行。
英文小作文:
Flexure is a crucial aspect of mechanical systems, whether it"s a bridge, a metal plate, or a beam in a building structure. Understanding the flexural behavior of these components is essential for ensuring their safe and reliable operation.
When a component undergoes bending, it undergoes a certain amount of displacement in the direction of the bend, which is known as the flexure amplitude. This displacement can be measured using various sensors, such as laser displacement sensors, to determine the flexural behavior of the component.
Bending stress, on the other hand, is the force that acts on a component due to its bending deformation. It should not exceed the yield strength of the material, otherwise it may result in permanent deformation or even failure of the component.
The design of mechanical systems must take into account various factors, including the flexural strength of components, their material properties, and manufacturing methods. By carefully designing these systems, we can ensure their safe and reliable operation under various conditions and loads.