rigid section

简明释义

刚性型材

英英释义

例句

1.To improve performance, the architect included a rigid section in the building design.

为了提高性能，建筑师在建筑设计中加入了一个刚性部分。

2.The rigid section of the vehicle frame absorbs impact during a collision.

车辆框架的刚性部分在碰撞时吸收冲击。

3.In the context of structural analysis, a rigid section can help simplify calculations.

在结构分析的背景下，刚性部分可以帮助简化计算。

4.The rigid section of the pipeline prevents deformation under high pressure.

管道的刚性部分防止在高压下变形。

5.The engineer designed a rigid section to ensure the stability of the bridge.

工程师设计了一个刚性部分以确保桥梁的稳定性。

作文

In the world of engineering and design, the term rigid section refers to a part of a structure or object that maintains its shape under stress and does not deform easily. This characteristic is crucial in various applications, from buildings to bridges and even in mechanical components. Understanding the importance of rigid section is essential for engineers who aim to create safe and durable structures. When designing a building, for example, architects must consider the load-bearing elements that will consist of rigid sections. These sections are typically made from materials like steel or reinforced concrete, which provide the necessary strength to support the weight of the structure and resist environmental forces such as wind or earthquakes. Without adequate rigid sections, a building could suffer from structural failure, leading to catastrophic consequences.Moreover, in the field of mechanical engineering, rigid sections play a vital role in the design of machines and vehicles. Components such as frames, beams, and supports are often designed to be rigid to ensure that they can withstand operational stresses without bending or breaking. For instance, the chassis of a car is a rigid section that provides stability and safety for the vehicle. If the chassis were to flex excessively during operation, it could lead to poor handling and increased wear on other parts.The concept of rigid sections also applies to the analysis of materials and their properties. Engineers often conduct tests to determine the rigidity of different materials, assessing how much they can bend or deform under various loads. This information is critical when selecting materials for specific applications, as it helps ensure that the final product will meet performance requirements while remaining safe and reliable.In addition to structural and mechanical applications, rigid sections are also relevant in the field of robotics. Robots often require rigid frameworks to support their actuators and sensors, allowing them to perform tasks with precision. If a robot's structure is not sufficiently rigid, it may struggle to maintain its position or execute movements accurately, resulting in decreased functionality.In conclusion, the term rigid section encompasses a fundamental aspect of engineering design. Whether in architecture, mechanical engineering, or robotics, understanding the role of rigid sections is essential for creating effective and safe designs. As technology advances, the materials and methods used to create these sections continue to evolve, allowing for more innovative and resilient structures. By prioritizing the integrity of rigid sections, engineers can contribute to the development of safer, more efficient systems that benefit society as a whole.

在工程和设计的世界中，术语rigid section指的是一种结构或物体的部分，在受到压力时能够保持其形状，并且不容易变形。这一特性在各种应用中至关重要，从建筑到桥梁，甚至机械部件。理解rigid section的重要性对于那些旨在创造安全和耐用结构的工程师来说是必不可少的。例如，在设计建筑时，建筑师必须考虑由rigid sections组成的承重元素。这些部分通常由钢或钢筋混凝土等材料制成，提供必要的强度以支撑结构的重量，并抵抗风或地震等环境力量。如果没有足够的rigid sections，建筑可能会遭受结构失效，导致灾难性后果。此外，在机械工程领域，rigid sections在机器和车辆的设计中也发挥着重要作用。框架、梁和支撑等组件通常被设计为刚性，以确保它们能够在操作压力下承受而不弯曲或断裂。例如，汽车的底盘就是一个rigid section，为车辆提供稳定性和安全性。如果底盘在操作过程中过度弯曲，则可能导致操控不佳和其他部件的磨损加剧。rigid sections的概念还适用于材料及其性质的分析。工程师通常进行测试以确定不同材料的刚性，评估它们在各种负载下的弯曲或变形程度。这些信息在选择特定应用的材料时至关重要，因为它有助于确保最终产品将满足性能要求，同时保持安全和可靠。除了结构和机械应用外，rigid sections在机器人领域也相关。机器人通常需要刚性框架来支撑其执行器和传感器，使其能够精确地执行任务。如果机器人的结构不足够刚性，它可能会难以保持位置或准确执行动作，导致功能下降。总之，术语rigid section涵盖了工程设计的基本方面。无论是在建筑、机械工程还是机器人技术中，理解rigid sections的作用对于创造有效和安全的设计至关重要。随着技术的进步，用于创建这些部分的材料和方法不断发展，使得更具创新性和韧性的结构成为可能。通过优先考虑rigid sections的完整性，工程师可以为开发更加安全、高效的系统做出贡献，从而使整个社会受益。