deflection mechanism
简明释义
偏转机构
英英释义
A deflection mechanism is a system or device that alters the direction or position of an object or force, typically to redirect or control movement. | 偏转机制是一种系统或装置,改变物体或力的方向或位置,通常用于重新引导或控制运动。 |
例句
1.Engineers tested the deflection mechanism 偏转机制 of the new building to ensure it can withstand strong winds.
工程师测试了新建筑的偏转机制 deflection mechanism,以确保它能够承受强风。
2.The bridge's deflection mechanism 偏转机制 is designed to absorb heavy loads and prevent structural failure.
这座桥的偏转机制 deflection mechanism旨在吸收重载并防止结构失效。
3.The design of the deflection mechanism 偏转机制 was crucial for the safety of the aircraft.
该偏转机制 deflection mechanism的设计对飞机的安全至关重要。
4.The deflection mechanism 偏转机制 in this suspension system helps maintain a smooth ride.
这个悬挂系统中的偏转机制 deflection mechanism有助于保持平稳的驾驶体验。
5.In robotics, the deflection mechanism 偏转机制 allows for greater flexibility and movement.
在机器人技术中,偏转机制 deflection mechanism允许更大的灵活性和运动。
作文
In the realm of engineering and physics, the term deflection mechanism refers to a system or method that allows for the redirection of forces or movements in a particular manner. Understanding this concept is crucial for designing structures that can withstand various stresses and strains without failing. The deflection mechanism plays a significant role in ensuring stability and safety in buildings, bridges, and other constructions.When we talk about the deflection mechanism, it is essential to recognize its applications in real-world scenarios. For instance, in civil engineering, bridges are designed with specific deflection mechanisms to accommodate the weight of vehicles and environmental factors such as wind and earthquakes. Engineers must calculate how much a bridge might bend or sway under these conditions. By incorporating effective deflection mechanisms, they can ensure that the structure remains safe and functional over time.Moreover, deflection mechanisms are not limited to large-scale constructions. They also find applications in everyday objects, such as furniture and appliances. For example, a well-designed chair incorporates a deflection mechanism that allows it to support the weight of a person while providing comfort. The materials used in the chair's construction are chosen specifically to create a balance between flexibility and strength, showcasing how deflection mechanisms can enhance user experience.In addition to physical structures, the concept of deflection mechanisms can be found in various fields, including robotics and automotive design. In robotics, joints and limbs are often designed with deflection mechanisms that allow for smooth movement and adaptability to different tasks. Similarly, in automotive engineering, suspensions utilize deflection mechanisms to absorb shocks from the road, ensuring a smoother ride for passengers.The study of deflection mechanisms involves understanding the principles of mechanics and material science. Engineers must consider factors such as load distribution, material properties, and environmental influences when designing these systems. Advanced computational tools and simulations are often employed to predict how a deflection mechanism will behave under various conditions, allowing for more efficient and safer designs.In summary, the deflection mechanism is a fundamental concept that plays a vital role in engineering and design. Its applications range from large infrastructures like bridges to everyday items such as furniture. By understanding and implementing effective deflection mechanisms, engineers can create structures and products that are not only functional but also safe and comfortable for users. As we continue to advance in technology and materials science, the importance of deflection mechanisms will only grow, leading to innovative solutions in various fields.
在工程和物理学领域,术语deflection mechanism(偏转机制)指的是一种系统或方法,它允许以特定的方式重定向力或运动。理解这一概念对于设计能够承受各种应力和变形而不失败的结构至关重要。deflection mechanism在确保建筑、桥梁和其他建筑物的稳定性和安全性方面发挥着重要作用。当我们谈论deflection mechanism时,必须认识到它在现实世界场景中的应用。例如,在土木工程中,桥梁的设计采用特定的deflection mechanisms(偏转机制)来适应车辆的重量以及风和地震等环境因素。工程师必须计算在这些条件下桥梁可能会弯曲或摇摆的程度。通过纳入有效的deflection mechanisms,他们可以确保结构在时间上的安全和功能。此外,deflection mechanisms并不仅限于大规模的建筑物。它们还在日常物品中得到了应用,例如家具和电器。例如,一个设计良好的椅子包含了一个deflection mechanism,使其能够支撑一个人的重量,同时提供舒适感。椅子构造中使用的材料被专门选择,以在灵活性和强度之间创造平衡,展示了deflection mechanisms如何增强用户体验。除了物理结构外,deflection mechanisms的概念还可以在各种领域中找到,包括机器人技术和汽车设计。在机器人技术中,关节和肢体通常设计有deflection mechanisms,以允许平滑的运动和适应不同的任务。同样,在汽车工程中,悬挂系统利用deflection mechanisms来吸收来自路面的冲击,确保乘客的乘坐更加平稳。对deflection mechanisms的研究涉及理解力学和材料科学的原理。工程师在设计这些系统时必须考虑负载分布、材料特性和环境影响等因素。先进的计算工具和仿真通常用于预测deflection mechanism在各种条件下的行为,从而实现更高效和更安全的设计。总之,deflection mechanism是一个基本概念,在工程和设计中发挥着至关重要的作用。它的应用范围从大型基础设施如桥梁到日常物品如家具。通过理解和实施有效的deflection mechanisms,工程师可以创造出不仅功能齐全而且对用户安全舒适的结构和产品。随着我们在技术和材料科学方面的不断进步,deflection mechanisms的重要性只会增加,从而在各个领域带来创新的解决方案。
相关单词
