unitized construction

简明释义

组合结构

英英释义

例句

1.With unitized construction, each module is prefabricated, reducing waste and improving efficiency.

通过单元化建筑，每个模块都是预制的，从而减少了浪费并提高了效率。

2.By implementing unitized construction, the project was completed two months ahead of schedule.

通过实施单元化建筑，该项目提前两个月完成。

3.The architect explained that unitized construction can significantly lower labor costs.

建筑师解释说，单元化建筑可以显著降低人工成本。

4.The new office building was designed using unitized construction, which allows for faster assembly on-site.

新办公楼采用了单元化建筑设计，这使得现场组装速度更快。

5.Many modern skyscrapers utilize unitized construction to ensure structural integrity and speed up the build process.

许多现代摩天大楼采用单元化建筑以确保结构完整性并加快建设过程。

作文

In recent years, the concept of unitized construction has gained significant traction in the architectural and construction industries. This innovative approach involves prefabricating building components in a factory setting before transporting them to the construction site for assembly. The advantages of unitized construction are manifold, particularly in terms of efficiency, quality control, and sustainability.One of the most compelling benefits of unitized construction is the reduction in construction time. Traditional building methods often involve on-site fabrication, which can lead to delays due to weather conditions, labor shortages, or supply chain issues. In contrast, unitized construction allows for various components to be manufactured simultaneously in a controlled environment. This parallel processing significantly shortens the overall timeline of a project, enabling faster completion and occupancy.Moreover, the factory setting of unitized construction enhances quality control. Each component is produced under strict regulations and standards, minimizing the risk of defects that are more common in traditional on-site construction. This consistency not only improves the durability and performance of the building but also reduces the likelihood of costly repairs and maintenance in the future.Sustainability is another critical aspect of unitized construction. By manufacturing components in a centralized location, there is a notable decrease in waste generated during the construction process. Materials can be reused or recycled more efficiently, and the energy consumption associated with transportation is minimized. Furthermore, many companies involved in unitized construction are now incorporating eco-friendly materials and technologies into their designs, further enhancing the environmental benefits of this construction method.The versatility of unitized construction also cannot be overlooked. It can be applied to various types of buildings, including residential, commercial, and institutional projects. For example, modular homes are a popular application of unitized construction, offering homeowners customizable options while ensuring high-quality standards. Similarly, commercial buildings can benefit from the speed and efficiency of this approach, allowing businesses to establish their operations quickly and effectively.Despite its numerous advantages, unitized construction does face some challenges. One of the primary concerns is the initial cost of investment in equipment and technology required for prefabrication. However, many industry experts argue that the long-term savings associated with reduced labor costs and shorter construction timelines often outweigh these initial expenses.Additionally, there may be limitations regarding design flexibility. While unitized construction offers a range of pre-designed components, some architects and builders may feel constrained by the available options. Nevertheless, ongoing advancements in technology and design are continually expanding the possibilities within this construction method.In conclusion, unitized construction represents a transformative approach to building that addresses many of the challenges faced by traditional construction methods. Its ability to enhance efficiency, improve quality control, promote sustainability, and provide versatility makes it an attractive option for modern construction projects. As the industry continues to evolve, it is likely that unitized construction will play an increasingly prominent role in shaping the future of architecture and urban development.

近年来，单元化建筑的概念在建筑和施工行业中获得了显著的关注。这种创新的方法涉及到在工厂环境中预制建筑组件，然后将其运输到施工现场进行组装。单元化建筑的优势多种多样，特别是在效率、质量控制和可持续性方面。单元化建筑最引人注目的好处之一是减少了施工时间。传统的建筑方法通常涉及现场制造，这可能由于天气条件、劳动力短缺或供应链问题而导致延误。相比之下，单元化建筑允许在受控环境中同时制造各种组件。这种并行处理显著缩短了项目的整体时间表，使得更快的完成和入住成为可能。此外，单元化建筑的工厂设置增强了质量控制。每个组件都在严格的法规和标准下生产，最大限度地减少了在传统现场施工中更常见的缺陷风险。这种一致性不仅提高了建筑的耐久性和性能，还减少了未来昂贵的修理和维护的可能性。可持续性是单元化建筑的另一个关键方面。通过在集中地点制造组件，施工过程中产生的废物显著减少。材料可以更有效地重复使用或回收，同时与运输相关的能源消耗也被最小化。此外，许多参与单元化建筑的公司现在在他们的设计中融入环保材料和技术，进一步增强了这种建筑方法的环境效益。单元化建筑的多样性也不容忽视。它可以应用于各种类型的建筑，包括住宅、商业和机构项目。例如，模块化住宅是单元化建筑的一种流行应用，为房主提供可定制的选项，同时确保高质量标准。同样，商业建筑也可以受益于这种方法的速度和效率，使企业能够快速有效地建立运营。尽管有许多优点，单元化建筑确实面临一些挑战。主要的担忧之一是预制所需设备和技术的初始投资成本。然而，许多行业专家认为，与减少劳动成本和缩短施工时间相关的长期节省往往超过这些初始费用。此外，设计灵活性可能存在限制。虽然单元化建筑提供了一系列预设计的组件，但一些建筑师和承包商可能会觉得可用选项受到限制。然而，随着技术和设计的不断进步，这种建筑方法中的可能性也在不断扩大。总之，单元化建筑代表了一种变革性的建筑方法，解决了传统建筑方法面临的许多挑战。其增强效率、改善质量控制、促进可持续性和提供多样性的能力，使其成为现代建筑项目的一个有吸引力的选择。随着行业的不断发展，单元化建筑可能会在塑造建筑和城市发展的未来中发挥越来越重要的作用。