fabricated building
简明释义
装配式房屋
英英释义
例句
1.The new community center is a stunning example of a fabricated building.
新的社区中心是一个令人惊叹的预制建筑示例。
2.Many companies are investing in fabricated buildings to reduce construction time.
许多公司正在投资于预制建筑以缩短施工时间。
3.The fabricated building was assembled on-site within a few days.
这座预制建筑在几天内在现场组装完成。
4.The company specializes in designing fabricated buildings for industrial use.
该公司专注于为工业用途设计预制建筑。
5.Using fabricated buildings can significantly lower labor costs.
使用预制建筑可以显著降低人工成本。
作文
The concept of a fabricated building has gained significant traction in recent years, particularly in the context of sustainable architecture and efficient construction methods. A fabricated building refers to a structure that is manufactured off-site in a controlled environment before being transported and assembled at the final location. This process contrasts sharply with traditional construction methods, where buildings are constructed entirely on-site. The advantages of fabricated buildings are numerous, ranging from cost efficiency to reduced environmental impact.One of the primary benefits of fabricated buildings is their ability to minimize waste. In conventional construction, materials are often cut and shaped on-site, leading to significant leftover scraps that may end up in landfills. However, in the fabrication process, materials can be pre-cut and optimized for use, resulting in less waste generated overall. This not only conserves resources but also aligns with modern sustainability goals, making fabricated buildings an attractive option for eco-conscious developers.Moreover, fabricated buildings can be constructed much more quickly than traditional buildings. Since many components are made in a factory setting, adverse weather conditions that typically delay on-site construction can be avoided. This speed of assembly can be particularly beneficial in emergency situations, where rapid deployment of housing or facilities is necessary. For instance, after natural disasters, fabricated buildings can provide immediate shelter solutions, demonstrating their versatility and practicality.In addition to speed and sustainability, fabricated buildings offer a high degree of customization. Advances in manufacturing technology allow for a wide range of designs and finishes, catering to various aesthetic preferences and functional requirements. Homeowners and businesses can choose from an array of layouts, materials, and features, ensuring that each fabricated building meets specific needs and desires. This level of personalization was traditionally difficult to achieve in conventional construction due to time and cost constraints.Furthermore, the structural integrity of fabricated buildings is often superior to that of their traditionally built counterparts. Because they are produced in a controlled environment, manufacturers can enforce strict quality control measures, ensuring that every component meets high standards. This attention to detail can lead to enhanced durability and safety, as the materials used in fabricated buildings are often subjected to rigorous testing before they are even assembled on-site.Despite these advantages, some critics argue that fabricated buildings lack the character and charm of traditional constructions. While it is true that many people appreciate the unique qualities of older buildings, advancements in design technology have allowed for innovative and aesthetically pleasing fabricated buildings that can rival traditional architecture in beauty and appeal. Additionally, as public awareness of the environmental impact of construction grows, the demand for fabricated buildings is likely to increase, pushing the industry toward more creative and appealing designs.In conclusion, the rise of fabricated buildings represents a significant shift in how we approach construction. With their potential for waste reduction, rapid assembly, customization, and structural integrity, fabricated buildings offer a compelling alternative to traditional methods. As technology continues to evolve and our understanding of sustainable practices deepens, it is clear that fabricated buildings will play an increasingly important role in shaping the future of architecture and urban development.
“制造建筑”的概念在近年来得到了显著的关注,特别是在可持续建筑和高效施工方法的背景下。“制造建筑”是指在受控环境中离线制造的结构,然后运输到最终位置进行组装。这一过程与传统的建筑方法形成了鲜明对比,后者完全在现场建造。制造建筑的优点众多,从成本效益到减少环境影响。制造建筑的主要好处之一是能够减少浪费。在传统建筑中,材料通常在现场切割和成型,导致大量剩余废料可能最终进入填埋场。然而,在制造过程中,材料可以预先切割并优化使用,从而减少总体产生的废物。这不仅节约了资源,还与现代可持续发展目标相一致,使制造建筑成为环保开发商的吸引选项。此外,制造建筑的施工速度通常比传统建筑快。由于许多组件是在工厂环境中制造的,因此可以避免通常会延误现场施工的不利天气条件。这种组装速度在紧急情况下尤其有益,在这些情况下,迅速部署住房或设施是必要的。例如,在自然灾害之后,制造建筑可以提供即时庇护解决方案,展示了它们的多功能性和实用性。除了速度和可持续性,制造建筑还提供了高度的定制化。制造技术的进步允许各种设计和装饰的选择,以满足不同的美学偏好和功能需求。房主和企业可以选择一系列布局、材料和特征,确保每个制造建筑满足特定的需求和愿望。由于时间和成本限制,这种个性化的程度在传统建筑中通常难以实现。此外,制造建筑的结构完整性通常优于传统建筑。因为它们是在受控环境中生产的,制造商可以实施严格的质量控制措施,确保每个组件都符合高标准。这种对细节的关注可以提高耐久性和安全性,因为制造建筑中使用的材料通常在组装到现场之前经过严格测试。尽管有这些优势,一些批评者认为制造建筑缺乏传统建筑的特点和魅力。虽然确实有很多人欣赏老建筑的独特品质,但设计技术的进步使创新和美观的制造建筑能够在美观和吸引力上与传统建筑相媲美。此外,随着公众对建筑环境影响的认识不断提高,对制造建筑的需求可能会增加,推动行业向更具创意和吸引力的设计发展。总之,制造建筑的崛起代表了我们在建筑方法上的重大转变。凭借其减少废物、快速组装、定制化和结构完整性的潜力,制造建筑为传统方法提供了一个引人注目的替代方案。随着技术的不断发展和我们对可持续实践的理解加深,制造建筑在塑造未来建筑和城市发展的过程中将发挥越来越重要的作用。
