hinged structures

简明释义

铰接构造

英英释义

例句

1.In robotics, hinged structures are often used to create joints that mimic human movement.

在机器人技术中，铰接结构常用于创建模仿人类运动的关节。

2.The design of the bridge includes several hinged structures, allowing for flexibility during strong winds.

这座桥的设计包括多个铰接结构，以便在强风中提供灵活性。

3.The architect proposed a building design featuring hinged structures to enhance natural ventilation.

建筑师提出了一种建筑设计，采用铰接结构以增强自然通风。

4.In aerospace engineering, hinged structures are critical for the operation of control surfaces on aircraft.

在航空航天工程中，铰接结构对飞机控制面板的操作至关重要。

5.The toy consists of various hinged structures that allow children to create different shapes.

这个玩具由各种铰接结构组成，让孩子们可以创造不同的形状。

作文

In the field of engineering and architecture, the concept of hinged structures (铰接结构) plays a crucial role in the design and functionality of various constructions. A hinged structure is defined as a system that consists of interconnected components that can rotate around fixed points, known as hinges. This flexibility allows for movement and adaptability, which are essential features in many applications, from bridges to buildings. Understanding how hinged structures work can greatly enhance our appreciation of modern engineering marvels.One of the most common examples of hinged structures is found in the design of bridges. Many bridges utilize hinged structures to allow for the expansion and contraction of materials due to temperature changes. For instance, a suspension bridge often incorporates hinged structures at its joints to accommodate the forces acting on it, ensuring stability and safety for vehicles and pedestrians alike. The use of hinged structures in this context not only enhances the bridge's durability but also contributes to its aesthetic appeal, as the graceful arcs and lines created by these hinges can be visually striking.In addition to bridges, hinged structures are also prevalent in the construction of roofs and large-scale buildings. Architects often employ hinged structures in roof designs to create dynamic shapes that can resist wind loads and other environmental stresses. For example, a retractable roof in a stadium utilizes hinged structures to open and close, allowing for versatility in hosting various events, regardless of weather conditions. This innovative use of hinged structures demonstrates how engineering principles can be applied to enhance functionality while also providing a unique architectural experience.Moreover, hinged structures are not limited to large constructions; they also play a significant role in everyday objects. Consider the humble door, which operates on a simple hinged structure. The hinge allows the door to swing open and closed with ease, demonstrating the practicality and efficiency of this design. Similarly, furniture often incorporates hinged structures for foldable tables and chairs, making them space-saving solutions for homes and offices. These everyday applications highlight the importance of hinged structures in our daily lives, often going unnoticed yet fundamentally enhancing our convenience.The study of hinged structures also extends into the realm of robotics and mechanical engineering. Robotic arms, for instance, often utilize hinged structures to achieve a range of motion necessary for performing complex tasks. By mimicking the movements of human limbs, these machines can carry out intricate operations in manufacturing, surgery, and even space exploration. The integration of hinged structures in robotics showcases the versatility of this design principle and its potential to revolutionize various industries.In conclusion, hinged structures (铰接结构) are an integral part of both engineering and everyday life. From monumental bridges to simple doors, the ability of hinged structures to provide flexibility and support is invaluable. As we continue to innovate and push the boundaries of design, understanding and utilizing hinged structures will remain essential in creating functional, efficient, and aesthetically pleasing solutions for the challenges we face.