wheel chain

简明释义

舵链

英英释义

例句

1.The wheel chain 轮链 on my motorcycle needs to be tightened regularly.

我摩托车上的wheel chain 轮链 需要定期收紧。

2.During the winter, it's important to keep the wheel chain 轮链 clean to prevent freezing.

在冬季，保持wheel chain 轮链 清洁以防止结冰是很重要的。

3.The mechanic recommended replacing the wheel chain 轮链 if it shows signs of wear.

机械师建议如果wheel chain 轮链 出现磨损迹象，则应更换。

4.A rusty wheel chain 轮链 can affect the overall efficiency of your vehicle.

生锈的wheel chain 轮链 会影响您车辆的整体效率。

5.Make sure to lubricate the wheel chain 轮链 before your bike ride to ensure smooth performance.

确保在骑自行车之前给wheel chain 轮链 涂抹润滑油，以确保顺畅的性能。

作文

In the world of mechanics and engineering, various components work together to create efficient systems. One such component that plays a crucial role in many machines is the wheel chain (轮链). The wheel chain is a series of interconnected links that transfer power and motion between different parts of a machine, particularly in vehicles and bicycles. Understanding the function and importance of the wheel chain can help us appreciate the complexity of mechanical systems. The primary purpose of the wheel chain is to connect the drive wheel to the driven wheel, allowing for the transmission of energy. In bicycles, for instance, when a rider pedals, the motion is transferred through the wheel chain to the rear wheel, propelling the bicycle forward. This simple yet effective mechanism is a fundamental part of cycling and demonstrates how the wheel chain contributes to our daily activities. Moreover, the design and material used for the wheel chain can significantly affect its performance. A well-designed wheel chain minimizes friction, ensuring smooth operation while maximizing durability. For example, many modern bicycles use chains made from high-strength steel or specialized alloys that can withstand the stresses of pedaling over time. Additionally, regular maintenance, such as lubrication and cleaning, is essential to prolong the life of the wheel chain, preventing rust and wear that could lead to failure. The wheel chain also has applications beyond bicycles. In motorcycles and cars, the concept remains similar. The wheel chain in these vehicles connects the engine's power to the wheels, enabling movement. In this context, understanding the wheel chain becomes even more critical, as it directly relates to safety and performance. A malfunctioning wheel chain can lead to accidents or reduced efficiency, highlighting the need for regular inspections and timely replacements. In addition to its practical applications, the wheel chain serves as a fascinating example of how engineering principles are applied in real-world scenarios. It illustrates the relationship between force, motion, and energy transfer, concepts that are central to physics and engineering. Students studying these subjects often encounter the wheel chain in their coursework, allowing them to see firsthand how theoretical knowledge translates into practical applications. Furthermore, the evolution of the wheel chain technology reflects advancements in engineering and manufacturing. Innovations such as the development of lighter materials and improved manufacturing techniques have led to stronger and more efficient wheel chains. As we continue to innovate and push the boundaries of technology, the wheel chain will undoubtedly evolve, adapting to new challenges and applications. In conclusion, the wheel chain (轮链) is a vital component in many mechanical systems, particularly in transportation. Its ability to transfer motion and power effectively makes it indispensable in bicycles, motorcycles, and cars. By understanding the design, maintenance, and applications of the wheel chain, we gain insight into the intricate workings of machines that play an essential role in our lives. As technology advances, so too will the wheel chain, continuing to be a key player in the machinery of the future.

在机械和工程的世界中，各种组件共同作用，以创建高效的系统。一个在许多机器中发挥关键作用的组件是轮链。轮链是一系列相互连接的链环，负责在机器的不同部分之间传递动力和运动，特别是在车辆和自行车中。理解轮链的功能和重要性，可以帮助我们欣赏机械系统的复杂性。轮链的主要目的是将驱动轮与被驱动轮连接起来，从而实现能量的传递。例如，在自行车中，当骑行者踩踏时，运动通过轮链传递到后轮，推动自行车向前。这种简单而有效的机制是骑行的基本部分，展示了轮链如何为我们的日常活动做出贡献。此外，轮链的设计和所用材料会显著影响其性能。设计良好的轮链可以最小化摩擦，确保平稳运行，同时最大限度地提高耐用性。例如，许多现代自行车使用由高强度钢或专用合金制成的链条，能够承受长时间踩踏的压力。此外，定期维护，如润滑和清洁，对于延长轮链的使用寿命至关重要，防止生锈和磨损导致的故障。轮链在自行车之外还有其他应用。在摩托车和汽车中，这一概念仍然相似。这些车辆中的轮链将发动机的动力连接到车轮，实现移动。在这种情况下，理解轮链变得更加重要，因为它直接关系到安全性和性能。故障的轮链可能导致事故或效率降低，突显了定期检查和及时更换的必要性。除了实际应用，轮链还作为一个迷人的例子，展示了工程原理如何应用于现实场景。它说明了力、运动和能量传递之间的关系，这些概念是物理学和工程学的核心。学习这些学科的学生通常在课程中接触到轮链，让他们亲眼看到理论知识如何转化为实际应用。此外，轮链技术的发展反映了工程和制造的进步。轻质材料和改进的制造技术的发展使得轮链变得更强大、更高效。随着我们继续创新并突破技术的界限，轮链无疑会不断发展，适应新的挑战和应用。总之，轮链（轮链）是许多机械系统中的重要组成部分，特别是在交通运输中。它有效传递运动和动力的能力使其在自行车、摩托车和汽车中不可或缺。通过了解轮链的设计、维护和应用，我们可以深入了解在我们生活中扮演重要角色的机器的复杂运作。随着技术的进步，轮链也将不断演变，继续在未来的机械中扮演关键角色。