flexural spring

简明释义

弯曲弹簧

英英释义

例句

1.Using a flexural spring in this model provides a unique advantage in terms of flexibility.

在这个模型中使用柔性弹簧在灵活性方面提供了独特的优势。

2.In the prototype, the flexural spring allows for better energy absorption during impacts.

在原型中，柔性弹簧能够在冲击过程中更好地吸收能量。

3.The design of the new suspension system incorporates a flexural spring to enhance ride comfort.

新悬挂系统的设计采用了柔性弹簧以增强乘坐舒适性。

4.The flexural spring is crucial in the functioning of many modern robotics applications.

柔性弹簧在许多现代机器人应用中至关重要。

5.Engineers are testing a flexural spring mechanism for improved load distribution in bridges.

工程师正在测试一种柔性弹簧机制，以改善桥梁的载荷分布。

作文

In the world of engineering and mechanics, various types of springs serve different purposes. One such type is the flexural spring, which is designed to withstand bending forces. Unlike traditional coil springs that compress or extend, a flexural spring operates on the principle of bending. This unique characteristic allows it to absorb shock and provide support in applications where space is limited. For example, in precision instruments or compact machinery, a flexural spring can replace bulkier components, thereby enhancing efficiency and performance. The design of a flexural spring typically involves a thin flat material that bends when a load is applied. The material's flexibility and resilience are crucial for its function. When the load is removed, the flexural spring returns to its original shape, demonstrating its ability to store and release energy effectively. This behavior makes it an ideal choice for applications requiring repeated cycles of loading and unloading without significant wear and tear. Moreover, the use of flexural springs has been expanding in various fields, including automotive, aerospace, and robotics. In the automotive industry, they are often used in suspension systems to improve ride quality and stability. Their lightweight nature contributes to overall vehicle efficiency, making them a preferred option for modern designs. Similarly, in aerospace applications, where weight reduction is critical, flexural springs help achieve optimal performance without compromising safety. In robotics, flexural springs play a vital role in creating flexible joints and actuators. By mimicking natural movements, they enable robots to perform tasks with greater dexterity and precision. This innovation opens up new possibilities for robotic applications in delicate environments, such as surgery or intricate assembly processes. Understanding the mechanics behind a flexural spring involves delving into concepts of material science and physics. The choice of material significantly impacts the spring's performance; materials must possess the right balance of strength and flexibility. Engineers often conduct simulations and experiments to determine the optimal design parameters for specific applications. In conclusion, the flexural spring is a remarkable invention that showcases the ingenuity of engineering. Its ability to provide efficient solutions in constrained spaces while maintaining durability makes it an invaluable component in modern technology. As industries continue to evolve, the demand for innovative solutions like the flexural spring will undoubtedly increase, paving the way for advancements in design and functionality. Understanding and mastering the concept of flexural springs will be essential for future engineers and designers as they strive to create more efficient and effective systems.

在工程和力学的世界中，各种类型的弹簧具有不同的用途。其中一种类型是弯曲弹簧，它旨在承受弯曲力。与传统的压缩或伸展的螺旋弹簧不同，弯曲弹簧基于弯曲的原理进行工作。这一独特的特性使其能够吸收冲击并在空间有限的应用中提供支持。例如，在精密仪器或紧凑型机械中，弯曲弹簧可以替代体积较大的组件，从而提高效率和性能。弯曲弹簧的设计通常涉及一块薄而平坦的材料，当施加负载时会弯曲。材料的柔韧性和弹性对于其功能至关重要。当负载被移除时，弯曲弹簧会恢复到其原始形状，展示了其有效存储和释放能量的能力。这种行为使其成为需要重复加载和卸载而不显著磨损的应用的理想选择。此外，弯曲弹簧的使用在汽车、航空航天和机器人等各个领域不断扩展。在汽车工业中，它们通常用于悬架系统，以改善乘坐质量和稳定性。它们的轻量特性有助于整体车辆效率，使其成为现代设计的首选选项。同样，在航空航天应用中，减轻重量至关重要，弯曲弹簧帮助实现最佳性能而不影响安全性。在机器人技术中，弯曲弹簧在创建灵活的关节和执行器方面发挥着重要作用。通过模拟自然运动，它们使机器人能够更灵活和精准地执行任务。这一创新为手术或复杂组装过程等精细环境中的机器人应用开辟了新的可能性。理解弯曲弹簧背后的力学涉及材料科学和物理学的概念。材料的选择显著影响弹簧的性能；材料必须具备强度和柔韧性的正确平衡。工程师通常进行模拟和实验，以确定特定应用的最佳设计参数。总之，弯曲弹簧是一项出色的发明，展示了工程的聪明才智。它在有限空间内提供高效解决方案，同时保持耐用性，使其成为现代技术中不可或缺的组成部分。随着行业的不断发展，对像弯曲弹簧这样的创新解决方案的需求无疑会增加，为设计和功能的进步铺平道路。理解和掌握弯曲弹簧的概念将对未来的工程师和设计师至关重要，因为他们努力创造更高效、更有效的系统。