strut member

简明释义

支柱件

英英释义

例句

1.The design team adjusted the angle of the strut member 支撑构件 to enhance the stability of the structure.

设计团队调整了支撑构件的角度，以增强结构的稳定性。

2.To improve load distribution, we need to reinforce the strut member 支撑构件 with additional bracing.

为了改善负载分布，我们需要用额外的支撑加固支撑构件。

3.During the inspection, we found that the strut member 支撑构件 had some signs of corrosion.

在检查过程中，我们发现该支撑构件有一些腐蚀的迹象。

4.The engineer specified that the strut member 支撑构件 must be made of high-strength steel for better durability.

工程师指定该支撑构件必须使用高强度钢材以提高耐久性。

5.The architect explained how the strut member 支撑构件 contributes to the overall aesthetic of the building.

建筑师解释了支撑构件如何为建筑物的整体美感做出贡献。

作文

In the world of engineering and architecture, understanding the various components that make up structures is crucial. One such component is the strut member, which plays a vital role in providing stability and support to various constructions. A strut member is essentially a structural element designed to resist axial compression. This means that it is used to support loads that are directed along its length, helping to maintain the integrity of the overall structure. In simple terms, when you think about bridges, buildings, or even aircraft, the strut member is often an unsung hero that ensures these structures can withstand the forces acting upon them.The importance of strut members can be observed in several applications. For example, in truss systems, which are commonly used in bridges and roofs, strut members connect different parts of the truss together. They work in conjunction with other elements like ties and beams to distribute loads evenly. When a load is applied to a truss, the strut members help to transfer the weight to the supports, preventing any single component from bearing too much stress. This distribution of forces is essential for the longevity and safety of any construction.Moreover, strut members are not only limited to traditional buildings and bridges; they are also critical in modern engineering applications. In the aerospace industry, for instance, strut members are used in the design of aircraft wings. The wings must be lightweight yet strong enough to handle the aerodynamic forces during flight. Engineers use strut members to create a framework that provides the necessary support without adding excessive weight, thus optimizing performance and fuel efficiency.Additionally, the materials used for strut members can vary significantly based on the requirements of the project. Common materials include steel, aluminum, and reinforced concrete. Each material has its own set of properties that make it suitable for specific applications. For instance, steel is favored for its high strength-to-weight ratio, making it ideal for large structures that require significant support. On the other hand, aluminum may be preferred in applications where weight is a critical factor, such as in aircraft design.Understanding how strut members function within a structure is essential for engineers and architects alike. It allows them to design safe and efficient buildings and infrastructures. Furthermore, advancements in technology and materials science continue to enhance the capabilities of strut members. Innovations in composite materials and manufacturing techniques have led to lighter and stronger options that can withstand more significant loads and stresses.In conclusion, the strut member is a fundamental element in the design and construction of various structures. Its ability to provide support and stability under compressive loads makes it indispensable in engineering. Whether in traditional buildings, bridges, or modern aerospace applications, strut members play a crucial role in ensuring that structures are safe, efficient, and resilient. As we continue to push the boundaries of engineering, the significance of strut members will undoubtedly remain a key focus in the development of innovative and sustainable designs.

在工程和建筑的世界中，理解构成结构的各种组件至关重要。其中一个组件是支撑构件，它在为各种建筑提供稳定性和支持方面发挥着至关重要的作用。支撑构件本质上是一种旨在抵抗轴向压缩的结构元素。这意味着它用于支持沿其长度方向施加的负载，帮助保持整体结构的完整性。简单来说，当你想到桥梁、建筑物甚至飞机时，支撑构件往往是确保这些结构能够承受作用于它们的力的无名英雄。支撑构件的重要性可以在多个应用中观察到。例如，在常用于桥梁和屋顶的桁架系统中，支撑构件将桁架的不同部分连接在一起。它们与其他元素如拉杆和梁共同工作，以均匀分配负载。当负载施加到桁架上时，支撑构件帮助将重量转移到支撑点，防止任何单一组件承受过多的压力。这种力的分配对任何建筑的耐久性和安全性至关重要。此外，支撑构件不仅限于传统的建筑和桥梁；它们在现代工程应用中也至关重要。在航空航天工业中，例如，支撑构件用于飞机机翼的设计。机翼必须轻便但又足够坚固，以应对飞行中的空气动力学力量。工程师利用支撑构件创建一个框架，提供必要的支持而不增加过多的重量，从而优化性能和燃油效率。此外，支撑构件所使用的材料可以根据项目的要求显著变化。常见材料包括钢、铝和增强混凝土。每种材料都有其适合特定应用的一系列属性。例如，钢因其高强度与重量比而受到青睐，非常适合需要显著支持的大型结构。另一方面，铝可能在重量是关键因素的应用中被优先考虑，例如在飞机设计中。理解支撑构件在结构中的功能对工程师和建筑师来说至关重要。这使他们能够设计安全和高效的建筑和基础设施。此外，技术和材料科学的进步不断增强支撑构件的能力。复合材料和制造技术的创新导致了更轻、更强的选项，可以承受更大的负载和压力。总之，支撑构件是各种结构设计和建造中的基本元素。它在承受压缩负载方面提供支持和稳定性的能力使其在工程中不可或缺。无论是在传统建筑、桥梁还是现代航空航天应用中，支撑构件在确保结构安全、高效和韧性方面发挥着至关重要的作用。随着我们继续推动工程的边界，支撑构件的重要性无疑将继续成为创新和可持续设计发展的关键焦点。