steelwork outfitting

简明释义

船体舾装

英英释义

例句

1.The project manager emphasized the importance of proper steelwork outfitting to ensure safety.

项目经理强调了适当的钢结构配备对确保安全的重要性。

2.During the inspection, the team reviewed the quality of the steelwork outfitting in the building.

在检查过程中，团队审查了建筑中钢结构配备的质量。

3.The steelwork outfitting in this area must comply with the latest building codes.

该区域的钢结构配备必须符合最新的建筑规范。

4.The contractor completed the steelwork outfitting for the new bridge ahead of schedule.

承包商提前完成了新桥的钢结构配备。

5.We need to order more materials for the steelwork outfitting of the new industrial facility.

我们需要为新工业设施的钢结构配备订购更多材料。

作文

In the world of construction and engineering, the term steelwork outfitting refers to the process of equipping steel structures with necessary components and systems that enhance their functionality and safety. This includes the installation of various elements such as beams, trusses, and other structural components that are essential for the integrity of a building or infrastructure project. The significance of steelwork outfitting cannot be overstated, as it plays a crucial role in ensuring that the steel framework is not only robust but also capable of supporting additional loads and systems that may be required for the intended use of the structure.The process typically begins after the primary steel framework has been erected. Engineers and contractors work together to identify the specific requirements for outfitting the structure based on its design and intended purpose. For example, in a commercial building, steelwork outfitting might involve the installation of HVAC systems, electrical conduits, plumbing, and fire protection systems. Each of these components must be carefully integrated into the steel framework to ensure they function effectively while maintaining the overall structural integrity.One of the key challenges in steelwork outfitting is ensuring that all components are installed correctly and meet safety standards. This requires a thorough understanding of engineering principles and building codes. Additionally, the outfitting process must be coordinated with other trades involved in the construction project to avoid conflicts and delays. For instance, electricians and plumbers need to work alongside steelworkers to ensure that their installations complement the steel framework without compromising its strength.Moreover, advancements in technology have significantly impacted the way steelwork outfitting is approached today. Building Information Modeling (BIM) is one such innovation that allows for more precise planning and execution of outfitting tasks. With BIM, teams can visualize the entire project in a digital format, enabling them to detect potential issues before they arise on-site. This proactive approach minimizes costly rework and enhances overall efficiency in the construction process.The economic implications of steelwork outfitting are also noteworthy. By effectively outfitting steel structures, construction companies can reduce operational costs and improve the longevity of buildings. Well-outfitted steel frameworks are less likely to require extensive repairs or renovations in the future, which can save significant amounts of money over time. Furthermore, a well-executed outfitting process can lead to faster project completion times, which is beneficial for both contractors and clients alike.In conclusion, steelwork outfitting is an essential aspect of modern construction that involves equipping steel structures with vital systems and components. Its importance lies not only in enhancing the functionality and safety of buildings but also in contributing to the overall efficiency and cost-effectiveness of construction projects. As technology continues to evolve, the methods and practices surrounding steelwork outfitting will undoubtedly advance, leading to even greater innovations in the field of construction and engineering.

在建筑和工程领域中，术语钢结构配套指的是为钢结构装备必要的组件和系统的过程，这些组件和系统增强了它们的功能性和安全性。这包括安装各种元素，如梁、桁架和其他对建筑或基础设施项目完整性至关重要的结构组件。钢结构配套的重要性不容低估，因为它在确保钢框架不仅坚固，而且能够支持可能需要的额外负载和系统方面发挥着关键作用。该过程通常在主要钢框架竖立后开始。工程师和承包商共同合作，根据设计和预期用途确定装备结构的具体要求。例如，在一座商业建筑中，钢结构配套可能涉及HVAC系统、电气管道、管道和消防保护系统的安装。每一个这些组件必须与钢框架谨慎集成，以确保它们有效运行，同时保持整体结构的完整性。在钢结构配套中，一个主要挑战是确保所有组件都正确安装并符合安全标准。这需要对工程原理和建筑规范有深入的理解。此外，配套过程必须与参与建设项目的其他工种协调，以避免冲突和延误。例如，电工和水管工需要与钢工一起工作，以确保他们的安装与钢框架相辅相成，而不妨碍其强度。此外，技术的进步显著影响了今天对钢结构配套的处理方式。建筑信息建模（BIM）就是一种创新，它允许对配套任务进行更精确的规划和执行。通过BIM，团队可以以数字格式可视化整个项目，使他们能够在现场出现问题之前检测潜在问题。这种主动的方法最小化了昂贵的返工，提高了整个施工过程的效率。钢结构配套的经济影响同样值得注意。通过有效地装备钢结构，建筑公司可以降低运营成本，提高建筑的使用寿命。配备良好的钢框架不太可能在未来需要大量维修或翻新，这可以节省大量资金。此外，执行良好的配套过程可以加快项目完成时间，这对承包商和客户都是有利的。总之，钢结构配套是现代建筑中一个至关重要的方面，涉及为钢结构装备重要的系统和组件。它的重要性不仅在于增强建筑的功能性和安全性，还在于促进建筑项目的整体效率和经济性。随着技术的不断发展，围绕钢结构配套的方法和实践无疑将会进步，从而在建筑和工程领域带来更大的创新。