dry construction

简明释义

干建造

英英释义

例句

1.In commercial projects, dry construction can lead to significant cost savings.

在商业项目中，干式施工可以带来显著的成本节约。

2.The contractor explained how dry construction minimizes disruptions on site.

承包商解释了如何通过干式施工最小化现场干扰。

3.One of the advantages of dry construction is that it reduces the amount of wet trades required.

使用干式施工的一个优点是减少了湿作业的需求。

4.We decided on dry construction for the interior walls to allow for faster renovations.

我们决定对内部墙壁采用干式施工以便于更快的翻新。

5.The architect suggested using dry construction to speed up the building process.

建筑师建议使用干式施工来加快建筑进程。

作文

In recent years, the construction industry has seen significant advancements in methods and techniques. One of the most innovative approaches is known as dry construction, which refers to a building technique that minimizes the use of water during the construction process. This method involves using materials that can be assembled without the need for wet processes such as traditional masonry, plastering, or concrete pouring. The rise of dry construction has been largely attributed to its numerous advantages, including speed, efficiency, and sustainability.One of the primary benefits of dry construction is the reduction in construction time. Traditional building methods often require lengthy drying periods for materials like concrete and plaster, which can delay project completion. In contrast, dry construction allows for immediate assembly and finishing, leading to faster project timelines. This is particularly advantageous in today's fast-paced world where time is of the essence.Moreover, dry construction techniques are generally more efficient. They often involve prefabricated components that can be manufactured off-site and then transported to the construction site for quick assembly. This not only speeds up the building process but also reduces labor costs, as fewer workers are needed on-site at any given time. Additionally, the use of lightweight materials in dry construction can result in lower transportation costs and easier handling during the assembly process.Sustainability is another crucial aspect of dry construction. With growing concerns about the environmental impact of construction activities, this method offers a more eco-friendly alternative. By reducing the amount of water used, dry construction helps conserve this precious resource. Furthermore, many materials used in dry construction are recyclable or made from recycled content, aligning with modern sustainable building practices.The versatility of dry construction also makes it an attractive option for various types of projects, from residential buildings to commercial spaces. For instance, modular homes built using dry construction techniques have gained popularity for their customizable designs and rapid assembly. These structures can be easily adapted to meet the specific needs of homeowners while maintaining high energy efficiency standards.However, despite its many advantages, dry construction is not without challenges. Some critics argue that it may not provide the same level of durability and insulation as traditional methods. Additionally, the initial costs of prefabricated materials can sometimes be higher than conventional options, which may deter some builders from adopting this approach. Nevertheless, as technology continues to advance and more research is conducted, it is likely that these challenges will be addressed, further solidifying the role of dry construction in the future of the building industry.In conclusion, dry construction represents a significant shift in how we approach building projects. Its advantages in terms of speed, efficiency, and sustainability make it a compelling choice for modern construction. As the industry evolves, embracing innovative techniques like dry construction will be essential for meeting the demands of a rapidly changing world. By understanding and implementing these methods, we can create structures that are not only functional but also environmentally responsible, paving the way for a more sustainable future in construction.

近年来，建筑行业在方法和技术上取得了显著进展。其中一种最具创新性的方法被称为干式施工，指的是在施工过程中尽量减少用水的建筑技术。这种方法涉及使用可以在没有传统砌筑、抹灰或混凝土浇筑等湿法工艺的情况下组装的材料。干式施工的兴起主要归因于其众多优势，包括速度、效率和可持续性。干式施工的主要好处之一是缩短了施工时间。传统建筑方法通常需要较长的干燥期，例如混凝土和抹灰，这可能会延迟项目完成。相比之下，干式施工允许立即组装和完成，从而导致更快的项目时间表。这在当今快节奏的世界中尤其具有优势，因为时间至关重要。此外，干式施工技术通常更高效。它们通常涉及预制组件，这些组件可以在工厂制造，然后运送到施工现场进行快速组装。这不仅加快了建筑过程，还降低了人工成本，因为在任何给定时间内，现场所需的工人较少。此外，干式施工中使用的轻质材料可以降低运输成本，并在组装过程中更易于处理。可持续性是干式施工的另一个关键方面。随着人们对建筑活动环境影响的关注日益增加，这种方法提供了一种更环保的替代方案。通过减少用水量，干式施工有助于保护这一宝贵资源。此外，许多用于干式施工的材料是可回收的或由回收内容制成，与现代可持续建筑实践相一致。干式施工的多样性也使其成为各种类型项目的吸引选项，从住宅建筑到商业空间。例如，采用干式施工技术建造的模块化住宅因其可定制的设计和快速组装而受到欢迎。这些结构可以轻松调整以满足房主的特定需求，同时保持高能效标准。然而，尽管有许多优点，干式施工并非没有挑战。一些批评者认为，它可能无法提供与传统方法相同的耐久性和绝缘性。此外，预制材料的初始成本有时可能高于传统选项，这可能会让一些建筑商在采用这种方法时犹豫不决。然而，随着技术的不断进步和更多研究的进行，这些挑战很可能会得到解决，进一步巩固干式施工在建筑行业未来中的作用。总之，干式施工代表了我们在建筑项目中方法的重要转变。其在速度、效率和可持续性方面的优势使其成为现代建筑的一个引人注目的选择。随着行业的发展，拥抱像干式施工这样的创新技术将是满足快速变化的世界需求的关键。通过理解和实施这些方法，我们可以创造出不仅功能齐全而且环保的结构，为建筑的可持续未来铺平道路。