elastic joint

简明释义

弹性接头

英英释义

例句

1.Our new car model features an elastic joint that enhances ride comfort by reducing vibrations.

我们新款汽车模型配备了一个弹性接头，通过减少振动来增强乘坐舒适度。

2.The engineer designed a bridge with an elastic joint to allow for movement during seismic activity.

工程师设计了一座桥梁，采用了弹性接头以允许在地震活动中移动。

3.The elastic joint in the pipe system prevents leaks by accommodating thermal expansion.

管道系统中的弹性接头通过适应热膨胀来防止泄漏。

4.The elastic joint allows the structure to flex without causing damage during high winds.

该弹性接头允许结构在强风中弯曲而不造成损害。

5.In robotics, using an elastic joint can help absorb shocks and improve the flexibility of the robot's movements.

在机器人技术中，使用弹性接头可以帮助吸收冲击并改善机器人的运动灵活性。

作文

In the realm of biology and anatomy, the concept of an elastic joint plays a crucial role in understanding how our bodies function. An elastic joint is defined as a type of joint that allows for a significant range of motion while maintaining stability and support. These joints are particularly important in areas where flexibility and strength are equally essential, such as in the spine or the shoulders.The structure of an elastic joint is fascinating. Unlike rigid joints that are fixed in place, elastic joints are designed to absorb shocks and adapt to various movements. This adaptability is largely due to the presence of elastic cartilage, which provides both cushioning and resilience. For instance, the intervertebral discs in our spines are examples of elastic joints. They allow us to bend and twist our bodies while also protecting the vertebrae from damage.Another prime example of an elastic joint is the shoulder joint. The shoulder is one of the most flexible joints in the human body, allowing for a wide range of arm movements. This flexibility is made possible by the unique structure of the shoulder, which includes a ball-and-socket configuration. However, this flexibility also makes the shoulder joint susceptible to injuries. Understanding the mechanics of an elastic joint can help us appreciate the balance between mobility and stability in our bodies.In addition to their biological significance, elastic joints also have applications in engineering and design. For instance, engineers often study the principles of elasticity to create materials and structures that can withstand stress and strain. The concept of an elastic joint can be applied to various fields, including robotics, where joints need to be both flexible and strong to mimic human movement.Moreover, the study of elastic joints extends beyond just human anatomy. Many animals possess similar structures that enable them to move efficiently in their environments. For example, the flexible joints in a cat's limbs allow it to leap and land gracefully, demonstrating the importance of elasticity in the animal kingdom.In conclusion, the concept of an elastic joint is vital in both biological and mechanical contexts. Whether we are discussing the intricacies of human anatomy or the principles of engineering, understanding how elastic joints function helps us appreciate the complexity and beauty of movement. As we continue to explore the world around us, the study of elastic joints will undoubtedly lead to new discoveries and innovations that enhance our understanding of both nature and technology.

在生物学和解剖学领域，弹性关节的概念在理解我们身体的功能方面起着至关重要的作用。弹性关节被定义为一种允许在保持稳定性和支撑性的同时具有显著运动范围的关节。这些关节在灵活性和力量同样重要的区域特别重要，例如脊柱或肩部。弹性关节的结构令人着迷。与固定不动的刚性关节不同，弹性关节旨在吸收冲击并适应各种运动。这种适应能力主要归功于弹性软骨的存在，它提供了缓冲和弹性。例如，我们脊柱中的椎间盘就是弹性关节的一个例子。它们允许我们弯曲和扭转身体，同时也保护椎骨免受损伤。另一个典型的弹性关节是肩关节。肩关节是人体中最灵活的关节之一，允许手臂进行广泛的运动。这种灵活性得益于肩关节独特的结构，包括球窝结构。然而，这种灵活性也使肩关节容易受伤。理解弹性关节的机械原理可以帮助我们欣赏身体运动中活动性与稳定性之间的平衡。除了生物学意义外，弹性关节在工程和设计中也有应用。例如，工程师经常研究弹性原理，以创造能够承受压力和应变的材料和结构。弹性关节的概念可以应用于多个领域，包括机器人技术，在这些领域中，关节需要既灵活又强壮，以模拟人类的运动。此外，弹性关节的研究不仅限于人类解剖学。许多动物也具有类似的结构，使它们能够在环境中高效移动。例如，猫肢体中的灵活关节使其能够优雅地跳跃和着陆，展示了弹性在动物王国中的重要性。总之，弹性关节的概念在生物和机械背景中都是至关重要的。无论是在讨论人体解剖的复杂性还是工程原理时，理解弹性关节的功能有助于我们欣赏运动的复杂性和美感。随着我们继续探索周围的世界，弹性关节的研究无疑将引领我们发现新的事物和创新，增强我们对自然和技术的理解。