flexible joint

简明释义

挠性连接

英英释义

例句

1.A flexible joint is crucial in automotive design to reduce vibrations.

在汽车设计中，柔性关节对于减少振动至关重要。

2.In yoga, a flexible joint can help enhance your balance and stability.

在瑜伽中，柔性关节可以帮助增强你的平衡和稳定性。

3.Engineers often use flexible joints in piping systems to accommodate thermal expansion.

工程师常在管道系统中使用柔性关节来适应热膨胀。

4.The robot's arm is designed with a flexible joint to allow for a wider range of motion.

机器人的手臂设计有一个柔性关节，以允许更广泛的运动范围。

5.The dancer's ability to perform complex moves is partly due to her flexible joints.

舞者能够表演复杂动作部分是因为她的柔性关节。

作文

In the realm of engineering and biomechanics, the concept of a flexible joint is paramount. A flexible joint refers to a connection between two components that allows for relative motion while maintaining structural integrity. This characteristic is essential in various applications, from robotics to human anatomy. For instance, the human body has numerous flexible joints, such as the knees and elbows, which facilitate movement and adaptability. These joints are designed to withstand different forces and loads, allowing for a range of motions that are crucial for everyday activities.The study of flexible joints in engineering often involves analyzing materials and designs that can endure stress without breaking. Engineers look for materials that exhibit elasticity and strength, ensuring that the flexible joint can perform under various conditions. For example, in robotic arms, flexible joints enable the arm to move smoothly and precisely, mimicking human motion. This technology is vital in fields such as manufacturing and surgery, where precision is critical.Moreover, the design of flexible joints must account for factors like friction and wear. Over time, a flexible joint can degrade if not properly maintained, leading to failure in the system. Therefore, engineers must consider lubrication and material selection to enhance the longevity of these joints. This aspect is particularly important in automotive engineering, where flexible joints are used in suspension systems to absorb shocks and provide a smoother ride.In addition to mechanical applications, flexible joints play a significant role in architecture. Buildings often incorporate flexible joints to allow for movement due to thermal expansion or seismic activity. These joints help in dissipating energy during earthquakes, thereby protecting the structure from damage. The integration of flexible joints in architectural design showcases the importance of adaptability and resilience in construction.Furthermore, understanding the mechanics of flexible joints can lead to innovations in various fields. Researchers are exploring biomimicry, where they study natural flexible joints to inspire new technologies. By observing how biological systems function, scientists can develop more efficient and effective designs for artificial joints and robotics.In conclusion, the significance of flexible joints cannot be overstated. They are essential in engineering, biomechanics, and architecture, facilitating movement and flexibility in systems. As technology advances, the study and application of flexible joints will continue to evolve, leading to improved designs and innovations that enhance our daily lives. Whether in the human body or mechanical systems, flexible joints exemplify the beauty of movement and the importance of adaptability in both nature and technology.

在工程和生物力学领域，flexible joint的概念至关重要。flexible joint指的是两个组件之间的连接，允许相对运动同时保持结构完整性。这一特性在各种应用中都是必不可少的，从机器人技术到人体解剖。例如，人体有许多flexible joints，如膝盖和肘部，这些关节促进了运动和适应性。这些关节被设计成能够承受不同的力量和负载，从而允许一系列对于日常活动至关重要的运动。在工程学中研究flexible joints通常涉及分析能够承受压力而不破裂的材料和设计。工程师寻找表现出弹性和强度的材料，以确保flexible joint能够在各种条件下运行。例如，在机器人手臂中，flexible joints使手臂能够平滑而精确地移动，模仿人类的动作。这项技术在制造和外科等领域至关重要，其中精确性是关键。此外，flexible joints的设计必须考虑摩擦和磨损等因素。随着时间的推移，如果没有适当的维护，flexible joint可能会退化，导致系统故障。因此，工程师必须考虑润滑和材料选择，以增强这些关节的使用寿命。这一点在汽车工程中特别重要，因为flexible joints用于悬挂系统以吸收冲击并提供更平稳的驾驶体验。除了机械应用，flexible joints在建筑中也发挥着重要作用。建筑物通常会结合flexible joints以允许因热膨胀或地震活动而产生的运动。这些关节有助于在地震期间耗散能量，从而保护结构免受损坏。在建筑设计中整合flexible joints展示了适应性和韧性在建筑中的重要性。此外，理解flexible joints的力学可以引领各个领域的创新。研究人员正在探索仿生学，研究自然的flexible joints以激发新的技术。通过观察生物系统的功能，科学家可以开发出更高效、更有效的人工关节和机器人设计。总之，flexible joints的重要性不容小觑。它们在工程、生物力学和建筑中至关重要，促进了系统的运动和灵活性。随着技术的发展，flexible joints的研究和应用将继续演变，带来改进的设计和创新，从而提升我们的日常生活。无论是在人体还是机械系统中，flexible joints都体现了运动的美和自然与技术中适应性的重要性。