stiffening member

简明释义

加强构件

英英释义

例句

1.Adding a stiffening member to the frame increased the overall strength of the structure.

在框架中添加一个加固构件增加了结构的整体强度。

2.The architect specified a stiffening member in the roof truss to prevent sagging over time.

建筑师在屋顶桁架中指定了一个加固构件以防止随着时间的推移而下垂。

3.The team used a steel stiffening member to reinforce the walls of the warehouse.

团队使用了一个钢制的加固构件来加固仓库的墙壁。

4.In the construction of skyscrapers, a stiffening member is crucial for resisting lateral forces.

在摩天大楼的建设中，加固构件对于抵抗侧向力至关重要。

5.The engineer decided to add a stiffening member to the bridge design to enhance its stability.

工程师决定在桥梁设计中添加一个加固构件以增强其稳定性。

作文

In the field of engineering and architecture, the term stiffening member refers to a structural component that is designed to increase the rigidity and strength of a structure. These members are critical in ensuring that buildings, bridges, and other constructions can withstand various forces, such as wind, earthquakes, and the weight of the materials themselves. Understanding the role of a stiffening member is essential for anyone involved in designing or analyzing structures. The purpose of a stiffening member is to prevent deformation and maintain the integrity of a structure under load. For instance, in a tall building, the walls may not provide enough stiffness on their own to resist lateral forces caused by strong winds. In this case, engineers might incorporate a stiffening member, such as a brace or a shear wall, to enhance the overall stability of the building. This addition helps distribute the forces more evenly throughout the structure, reducing the risk of failure. Moreover, stiffening members can be found in various forms, including beams, columns, and trusses. Each type serves a specific function within the overall framework of a construction project. For example, a diagonal brace in a truss system acts as a stiffening member by providing additional support against bending and twisting. Similarly, in bridge construction, stiffening members are often used in the form of cables or rods to enhance the strength of the main supporting structure. The design of stiffening members involves careful consideration of materials and geometry. Engineers must choose materials that offer the right balance of strength and weight, ensuring that the stiffening member effectively enhances the structure without adding unnecessary load. Common materials include steel, concrete, and composite materials, each selected based on the specific requirements of the project. Additionally, the placement of stiffening members is crucial for optimal performance. Strategic positioning can significantly improve the load distribution and overall stability of a structure. For example, placing a stiffening member at key points where forces converge can help mitigate stress concentrations that could lead to structural failure. In conclusion, the concept of a stiffening member is vital in the realms of engineering and architecture. These components play a significant role in enhancing the strength and stability of structures, allowing them to endure various external forces. By understanding the importance of stiffening members, engineers can design safer and more resilient buildings and infrastructures, ultimately contributing to the well-being and safety of society as a whole.

在工程和建筑领域，术语stiffening member指的是一种结构组件，旨在增加结构的刚性和强度。这些构件在确保建筑物、桥梁和其他建筑物能够承受各种力量（如风、地震以及材料本身的重量）方面至关重要。理解stiffening member的作用对任何参与设计或分析结构的人来说都是必不可少的。stiffening member的目的是防止变形，并在载荷下保持结构的完整性。例如，在一栋高楼中，墙体本身可能不足以抵御强风造成的侧向力。在这种情况下，工程师可能会加入一个stiffening member，如支撑杆或剪力墙，以增强建筑物的整体稳定性。这种附加结构有助于更均匀地分配力量，从而降低失效的风险。此外，stiffening members可以有多种形式，包括梁、柱和桁架。每种类型在整个建筑项目的框架中都发挥着特定的功能。例如，桁架系统中的对角支撑作为stiffening member，通过提供额外的支持来抵抗弯曲和扭转。同样，在桥梁施工中，stiffening members通常以电缆或杆的形式出现，以增强主要支撑结构的强度。stiffening members的设计涉及对材料和几何形状的仔细考虑。工程师必须选择提供强度和重量之间正确平衡的材料，确保stiffening member有效增强结构，同时不增加不必要的负担。常用材料包括钢、混凝土和复合材料，每种材料根据项目的具体要求进行选择。此外，stiffening members的放置对最佳性能至关重要。战略性的位置可以显著改善载荷分布和结构的整体稳定性。例如，在力量汇聚的关键点放置stiffening member可以帮助缓解可能导致结构失效的应力集中。总之，stiffening member的概念在工程和建筑领域至关重要。这些组件在增强结构的强度和稳定性方面发挥着重要作用，使其能够承受各种外部力量。通过理解stiffening members的重要性，工程师可以设计出更安全、更具韧性的建筑和基础设施，最终有助于社会整体的福祉和安全。