cyclic force

简明释义

循环力

英英释义

例句

1.The bridge was designed to withstand the effects of cyclic force 循环力 caused by heavy traffic.

这座桥的设计考虑到了重型交通导致的循环力。

2.The fatigue test measured how materials respond to cyclic force 循环力 over time.

疲劳测试测量了材料随时间对循环力的反应。

3.In mechanical engineering, understanding cyclic force 循环力 is crucial for ensuring the longevity of components.

在机械工程中，理解循环力对于确保组件的耐久性至关重要。

4.Engineers must account for cyclic force 循环力 when designing parts that will experience repeated loading.

工程师在设计会经历重复加载的部件时，必须考虑循环力。

5.The cyclic force 循环力 applied to the structure can lead to cracks if not properly managed.

如果管理不当，施加于结构上的循环力可能会导致裂缝。

作文

In the realm of physics and engineering, the term cyclic force refers to a force that is applied in a repetitive or periodic manner. This concept is crucial for understanding various phenomena in mechanics, particularly in systems subjected to oscillations or vibrations. The cyclic force can be observed in numerous applications, such as in the design of bridges, buildings, and machinery. For instance, when a swing moves back and forth, the forces acting on it are not constant but vary in a cyclic manner. This repetitive application of force is essential for maintaining the motion of the swing. One of the most significant implications of cyclic force is its impact on material fatigue. Materials subjected to repeated loading and unloading experiences can develop microcracks over time, leading to failure. Engineers must account for cyclic force when designing structures to ensure they can withstand repeated stress without compromising safety. For example, in the aerospace industry, components of an aircraft are rigorously tested for their ability to endure cyclic force during flight, which involves numerous takeoffs and landings. Moreover, the study of cyclic force extends into the field of biomechanics. Human movement often involves cyclic patterns, such as walking or running. During these activities, the forces exerted by muscles and gravity create a cycle of motion that allows for efficient locomotion. Understanding how cyclic force operates in the human body can lead to better sports training techniques and rehabilitation methods for injuries. In addition to its applications in engineering and biology, cyclic force plays a pivotal role in the natural world. For example, the tides are influenced by the gravitational pull of the moon, creating a cyclic force that affects ocean currents and marine life. This natural phenomenon highlights the interconnectedness of forces and cycles in our environment. Furthermore, the concept of cyclic force is not limited to physical applications; it also finds relevance in social and economic contexts. In economics, cycles of boom and bust can be seen as a form of cyclic force, where periods of growth are followed by downturns. Understanding these cycles can help policymakers make informed decisions to stabilize the economy. In conclusion, the understanding of cyclic force is essential across various fields, from engineering to biology and beyond. Its implications are vast, affecting everything from the design of infrastructure to the analysis of human movement and even economic trends. Recognizing the significance of cyclic force allows us to appreciate the complexities of both man-made and natural systems. As we continue to explore the intricacies of forces and cycles, we gain valuable insights that can enhance our technological advancements and improve our quality of life.

在物理和工程学领域，术语循环力指的是以重复或周期性方式施加的力。这个概念对于理解力学中各种现象至关重要，特别是在受到振动或振荡的系统中。循环力可以在许多应用中观察到，例如在桥梁、建筑物和机械的设计中。例如，当秋千前后摆动时，作用于它的力并不是恒定的，而是以周期性方式变化。这种力的重复施加对于维持秋千的运动至关重要。循环力最重要的一个影响是它对材料疲劳的影响。经历重复加载和卸载的材料可能会随着时间的发展而产生微裂纹，导致失效。因此，工程师在设计结构时必须考虑循环力，以确保它们能够承受重复的应力而不危及安全。例如，在航空航天工业中，飞机的部件在飞行中经过严格测试，以确保它们能够承受循环力，这涉及到无数次的起飞和着陆。此外，循环力的研究扩展到了生物力学领域。人体运动往往涉及周期性模式，例如走路或跑步。在这些活动中，肌肉和重力施加的力创造了一个运动的循环，使得高效的运动成为可能。理解循环力在人体内的运作可以为更好的运动训练技术和伤害康复方法提供帮助。除了在工程和生物学中的应用外，循环力在自然界中也发挥着关键作用。例如，潮汐受到月球引力的影响，形成一种循环力，影响海洋洋流和海洋生物。这一自然现象强调了我们环境中力量和循环的相互联系。此外，循环力的概念不仅限于物理应用；它在社会和经济背景中也具有相关性。在经济学中，繁荣与衰退的周期可以视为一种循环力，其中增长期之后是衰退。理解这些周期可以帮助政策制定者做出明智的决策，以稳定经济。总之，理解循环力在各个领域至关重要，从工程到生物学及其他领域。它的影响广泛，涉及从基础设施设计到人类运动分析，甚至经济趋势的方方面面。认识到循环力的重要性使我们能够欣赏人造系统和自然系统的复杂性。随着我们继续探索力量和循环的复杂性，我们获得了宝贵的见解，可以增强我们的技术进步，提高我们的生活质量。