structural member development
简明释义
构件展开
英英释义
The process of creating and improving components that provide structural support in a building or engineering project. | 创建和改善在建筑或工程项目中提供结构支持的组件的过程。 |
例句
1.The team focused on structural member development to enhance the building's stability.
团队专注于结构构件开发以增强建筑的稳定性。
2.Our project manager emphasized the importance of structural member development in the design phase.
我们的项目经理强调了设计阶段中结构构件开发的重要性。
3.Effective structural member development can reduce material costs significantly.
有效的结构构件开发可以显著降低材料成本。
4.The architect presented a plan that included structural member development for the new skyscraper.
建筑师展示了一项计划,其中包括新摩天大楼的结构构件开发。
5.In our engineering course, we studied structural member development techniques for bridges.
在我们的工程课程中,我们研究了桥梁的结构构件开发技术。
作文
In the field of engineering, particularly in construction and architecture, the term structural member development refers to the process of designing, analyzing, and fabricating the individual components that make up a structure. These components, or structural members, include beams, columns, trusses, and slabs. Each of these elements plays a crucial role in ensuring the stability and integrity of a building or infrastructure project. Understanding structural member development is essential for engineers and architects as it directly impacts the safety and functionality of the structures they create.The first step in structural member development involves conceptual design. During this phase, engineers assess the requirements of the project, including load-bearing capacities, environmental conditions, and aesthetic considerations. This initial stage is critical because it lays the groundwork for how each structural member will interact with others within the overall framework. For instance, when designing a bridge, engineers must consider factors such as the weight of vehicles, wind forces, and seismic activity, which all influence the type and size of structural members needed.Once the conceptual design is established, the next phase is detailed design and analysis. In this stage, engineers use advanced software tools to model the behavior of structural members under various loads and conditions. This analysis helps identify potential weaknesses or failure points in the design. By simulating real-world scenarios, engineers can optimize the dimensions and materials of each structural member to enhance performance and reduce costs. This phase of structural member development ensures that the final design is not only efficient but also safe for public use.After the design has been finalized, the fabrication of structural members begins. This process involves the actual construction of beams, columns, and other components, often using materials like steel, concrete, or wood. Each material has its own properties, and understanding these is crucial during structural member development. For example, steel is known for its high tensile strength, while concrete is favored for its compressive strength. The choice of material affects not only the performance of the structural members but also the overall sustainability of the project.Once the structural members are fabricated, they must be transported to the construction site. This logistical aspect is another important consideration in structural member development. Engineers must plan for how large and heavy components will be moved and assembled on-site. Proper planning ensures that the construction process is efficient and minimizes delays.Finally, the installation of structural members requires careful coordination among various trades involved in the construction process. This includes ensuring that each member is placed accurately and securely, as any misalignment can compromise the entire structure's integrity. The successful execution of structural member development culminates in a completed project that meets all safety standards and fulfills the intended design purposes.In conclusion, structural member development is a multifaceted process that encompasses design, analysis, fabrication, and installation. Each phase is interconnected, and a thorough understanding of these stages is essential for anyone involved in the construction industry. As buildings and infrastructures continue to evolve and grow in complexity, the importance of effective structural member development will only increase, highlighting the need for skilled professionals who can navigate these challenges proficiently.
在工程领域,特别是在建筑和建筑学中,术语结构构件开发指的是设计、分析和制造构成结构的各个组件的过程。这些组件或结构构件包括梁、柱、桁架和板。每个元素在确保建筑或基础设施项目的稳定性和完整性方面都发挥着至关重要的作用。理解结构构件开发对于工程师和建筑师来说至关重要,因为它直接影响他们所创造的结构的安全性和功能性。结构构件开发的第一步涉及概念设计。在这个阶段,工程师评估项目的要求,包括承载能力、环境条件和美学考虑。这个初始阶段至关重要,因为它为每个结构构件如何在整体框架内相互作用奠定了基础。例如,在设计桥梁时,工程师必须考虑车辆的重量、风力和地震活动等因素,这些因素都会影响所需结构构件的类型和大小。一旦概念设计确定,下一阶段是详细设计和分析。在这一阶段,工程师使用先进的软件工具对结构构件在各种负载和条件下的行为进行建模。这种分析有助于识别设计中的潜在弱点或故障点。通过模拟现实世界场景,工程师可以优化每个结构构件的尺寸和材料,以增强性能并降低成本。这一阶段的结构构件开发确保最终设计不仅高效,而且对公众使用是安全的。在设计最终确定后,结构构件的制造开始。这个过程涉及梁、柱和其他组件的实际建造,通常使用钢、混凝土或木材等材料。每种材料都有其自身的特性,理解这些特性在结构构件开发中至关重要。例如,钢以其高抗拉强度而闻名,而混凝土因其抗压强度而受到青睐。材料的选择不仅影响结构构件的性能,还影响项目的整体可持续性。一旦结构构件制造完成,它们必须被运输到施工现场。这个物流方面是结构构件开发中另一个重要的考虑因素。工程师必须计划大型和重型组件将如何移动和在现场组装。适当的规划确保了施工过程的高效性,并最大限度地减少延误。最后,结构构件的安装需要与参与施工过程的各个工种进行仔细协调。这包括确保每个构件被准确和安全地放置,因为任何不对齐都可能危及整个结构的完整性。成功执行结构构件开发的结果是一个满足所有安全标准并实现预期设计目的的完工项目。总之,结构构件开发是一个多面向的过程,涵盖了设计、分析、制造和安装。每个阶段都是相互关联的,对于任何参与建筑行业的人来说,全面理解这些阶段至关重要。随着建筑和基础设施的不断发展和复杂性增加,有效的结构构件开发的重要性只会增强,突显出能够熟练应对这些挑战的专业人员的需求。
相关单词
