main structural part
简明释义
知结构配件
英英释义
The primary component or element that forms the essential framework or support of a structure. | 构成结构基本框架或支撑的主要组成部分。 |
例句
1.The contractor explained how the main structural part 主要结构部分 of the house would be built first before any other elements.
承包商解释了房子的主要结构部分 main structural part 将首先建造,然后再进行其他元素的施工。
2.During the inspection, we found that the main structural part 主要结构部分 of the bridge had significant wear and tear.
在检查过程中,我们发现桥的主要结构部分 main structural part 有明显的磨损。
3.The engineer emphasized that the main structural part 主要结构部分 of the building must be reinforced to withstand earthquakes.
工程师强调,建筑的主要结构部分 main structural part 必须加固以抵御地震。
4.In our project, the main structural part 主要结构部分 is made of steel to ensure durability.
在我们的项目中,主要结构部分 main structural part 是用钢材制成的,以确保耐用性。
5.The architect designed the main structural part 主要结构部分 to support additional floors in the future.
建筑师设计了主要结构部分 main structural part 以支持未来增加的楼层。
作文
In the realm of architecture and engineering, the design of a building or structure is a complex process that involves various elements working together harmoniously. Among these elements, the main structural part plays a crucial role in ensuring the integrity and stability of the entire construction. The main structural part refers to the primary components that bear the load and provide support, such as beams, columns, and foundations. Without these essential elements, a structure would be unable to withstand the forces acting upon it, leading to potential failures and safety hazards.When architects and engineers collaborate on a project, they must consider the materials used for the main structural part. Commonly utilized materials include steel, concrete, and wood, each with its own set of properties that affect the overall performance of the structure. For instance, steel is often favored for its high tensile strength and durability, making it an ideal choice for skyscrapers and bridges. On the other hand, concrete is known for its compressive strength and versatility, making it suitable for various types of buildings.The design of the main structural part also involves calculations and simulations to predict how the structure will behave under different conditions. Engineers utilize advanced software to model the loads that the structure will experience, including dead loads, live loads, and environmental factors such as wind and seismic activity. By analyzing these loads, they can ensure that the main structural part is adequately designed to handle the stresses it will encounter throughout its lifespan.Moreover, the main structural part is not only about load-bearing capabilities but also about aesthetics. Many architects strive to create visually appealing designs that integrate the main structural part into the overall architectural vision. This can involve exposing structural elements, using innovative shapes, or incorporating materials that enhance the visual impact of the building. For example, a modern building might feature exposed steel beams as a design statement, showcasing the main structural part while contributing to the overall aesthetic.In addition to its functional and aesthetic roles, the main structural part also has implications for sustainability. As the construction industry increasingly focuses on reducing its environmental impact, selecting materials for the main structural part that are sustainable and energy-efficient has become a priority. This includes using recycled materials, optimizing designs to minimize waste, and considering the lifecycle of the materials used.Ultimately, the main structural part is fundamental to the success of any construction project. It not only supports the building but also influences its design, functionality, and sustainability. Understanding the importance of the main structural part allows us to appreciate the intricate balance between engineering principles and artistic expression in architecture. As we continue to innovate and push the boundaries of design, the main structural part will remain a pivotal focus for architects and engineers alike, ensuring that our structures are safe, beautiful, and environmentally responsible.
在建筑和工程领域,建筑或结构的设计是一个复杂的过程,涉及各种元素和谐地共同工作。在这些元素中,主要结构部分在确保整个建筑的完整性和稳定性方面发挥着至关重要的作用。主要结构部分指的是承载负荷并提供支撑的主要组件,如梁、柱和基础。没有这些基本元素,结构将无法承受施加于其上的力量,导致潜在的故障和安全隐患。当建筑师和工程师在项目上合作时,他们必须考虑用于主要结构部分的材料。常用的材料包括钢、混凝土和木材,每种材料都有其影响结构整体性能的特性。例如,钢因其高抗拉强度和耐久性而受到青睐,非常适合摩天大楼和桥梁。另一方面,混凝土以其抗压强度和多功能性而闻名,适合各种类型的建筑。主要结构部分的设计还涉及计算和模拟,以预测结构在不同条件下的表现。工程师利用先进的软件对结构将经历的负荷进行建模,包括死荷载、活荷载以及风和地震等环境因素。通过分析这些负荷,他们可以确保主要结构部分的设计足够应对其在使用寿命内所遇到的压力。此外,主要结构部分不仅关乎承载能力,还与美学有关。许多建筑师努力创造视觉上令人愉悦的设计,将主要结构部分融入整体建筑愿景。这可能涉及暴露结构元素、使用创新形状或结合增强建筑视觉冲击力的材料。例如,一座现代建筑可能会将暴露的钢梁作为设计声明,展示主要结构部分同时为整体美学做出贡献。除了功能和美学角色外,主要结构部分在可持续性方面也具有重要意义。随着建筑行业越来越关注减少环境影响,选择用于主要结构部分的可持续和节能材料已成为优先事项。这包括使用回收材料、优化设计以最小化浪费,以及考虑所用材料的生命周期。最终,主要结构部分对任何建设项目的成功至关重要。它不仅支撑建筑物,还影响其设计、功能和可持续性。理解主要结构部分的重要性使我们能够欣赏建筑工程原理与艺术表现之间的微妙平衡。随着我们继续创新并推动设计的边界,主要结构部分将始终是建筑师和工程师关注的关键,确保我们的结构安全、美观且环保。
相关单词
