plane structure
简明释义
平面结构
英英释义
A plane structure refers to a flat, two-dimensional arrangement or configuration of elements that can support loads and resist forces. | 平面结构是指一种平坦的、二维的元素排列或配置,能够支撑载荷并抵抗力的作用。 |
例句
1.For the presentation, I created a diagram illustrating the plane structure of the proposed project.
为了演示,我创建了一个图表,说明了拟议项目的平面结构。
2.In engineering, understanding the plane structure is crucial for creating stable bridges.
在工程学中,理解平面结构对于建造稳定的桥梁至关重要。
3.The plane structure of the aircraft is designed to reduce drag and improve fuel efficiency.
飞机的平面结构旨在减少阻力并提高燃油效率。
4.The artist used a plane structure in her sculpture to convey a sense of simplicity and elegance.
这位艺术家在她的雕塑中使用了平面结构来传达一种简单和优雅的感觉。
5.The architect designed a modern building with a simple plane structure to maximize space efficiency.
建筑师设计了一座现代建筑,采用简单的平面结构以最大化空间效率。
作文
In the field of architecture and engineering, the term plane structure refers to a type of structural system that is two-dimensional in nature. This means that the structure has a flat surface and can be analyzed using principles of planar mechanics. The plane structure (平面结构) is often used in various applications, including buildings, bridges, and other infrastructures where strength and stability are paramount. One of the most common examples of a plane structure (平面结构) is a truss. A truss is made up of triangular units that distribute weight evenly across its framework. This design allows for minimal material use while maintaining maximum strength. The efficiency of a plane structure (平面结构) like a truss makes it a popular choice among engineers when designing roofs or bridges, as it can support significant loads without excessive weight. Another example of a plane structure (平面结构) is a flat slab, which is commonly used in modern buildings. Flat slabs are concrete panels that do not require beams, allowing for a more open and flexible interior space. This type of plane structure (平面结构) is advantageous in construction because it simplifies the building process and reduces the amount of materials needed. Additionally, flat slabs can be easily adapted to various architectural designs, making them versatile in both residential and commercial projects.The study of plane structures (平面结构) also involves understanding the forces and moments acting upon them. Engineers must consider factors such as tension, compression, and shear when designing these structures. By analyzing how these forces interact within a plane structure (平面结构), engineers can ensure safety and durability, preventing potential failures that could arise from inadequate design. Moreover, advancements in technology have allowed for more sophisticated modeling and simulation techniques. Software programs can now accurately predict how a plane structure (平面结构) will behave under various conditions, such as earthquakes or high winds. This ability to simulate real-world scenarios helps engineers make informed decisions during the design phase, ultimately leading to safer and more efficient structures. In conclusion, understanding the concept of plane structure (平面结构) is essential for anyone involved in architecture and engineering. These structures play a vital role in our built environment, providing safety and functionality. As technology continues to advance, the ability to design and analyze plane structures (平面结构) will only improve, paving the way for innovative solutions in construction. Whether through trusses, flat slabs, or other forms, the significance of plane structures (平面结构) cannot be overstated, as they form the backbone of many of the structures we rely on every day.
在建筑和工程领域,术语平面结构指的是一种二维的结构系统。这意味着该结构具有平坦的表面,并且可以使用平面力学的原理进行分析。平面结构(plane structure)通常用于各种应用,包括建筑、桥梁和其他基础设施,其中强度和稳定性至关重要。最常见的平面结构(平面结构)示例之一是桁架。桁架由三角形单元组成,均匀分配重量到其框架上。这种设计允许在保持最大强度的同时,最小化材料的使用。像桁架这样的平面结构(平面结构)的效率使其成为工程师在设计屋顶或桥梁时的热门选择,因为它可以在不增加过多重量的情况下支撑显著的负荷。平面结构(平面结构)的另一个示例是平板,这在现代建筑中很常见。平板是混凝土面板,不需要梁,从而允许更开放和灵活的室内空间。这种类型的平面结构(平面结构)在施工中具有优势,因为它简化了建筑过程并减少了所需材料的数量。此外,平板可以很容易地适应各种建筑设计,使其在住宅和商业项目中都很通用。对平面结构(平面结构)的研究还涉及理解作用于它们的力和力矩。工程师必须考虑拉伸、压缩和剪切等因素,在设计这些结构时。通过分析这些力量在平面结构(平面结构)中的相互作用,工程师可以确保安全性和耐久性,防止由于设计不足而导致的潜在故障。此外,技术的进步使得更复杂的建模和仿真技术成为可能。软件程序现在可以准确预测平面结构(平面结构)在各种条件下的表现,例如地震或强风。这种模拟现实场景的能力有助于工程师在设计阶段做出明智的决策,最终导致更安全和更高效的结构。总之,理解平面结构(平面结构)的概念对于任何参与建筑和工程的人来说都是必不可少的。这些结构在我们建造的环境中发挥着至关重要的作用,提供安全性和功能性。随着技术的不断进步,设计和分析平面结构(平面结构)的能力只会提高,为建筑中的创新解决方案铺平道路。无论是通过桁架、平板还是其他形式,平面结构(平面结构)的重要性不容小觑,因为它们构成了我们每天依赖的许多结构的骨干。
相关单词
