monolithic construction

简明释义

整体式构造

英英释义

例句

1.The use of monolithic construction can significantly reduce the amount of construction waste generated.

使用整体式建筑可以显著减少产生的建筑废料。

2.In earthquake-prone areas, monolithic construction provides better resistance to seismic activity.

整体式建筑在地震多发地区提供更好的抗震能力。

3.Architects often prefer monolithic construction for its aesthetic appeal and structural integrity.

建筑师通常喜欢整体式建筑，因为它的美观和结构完整性。

4.The new city hall was built using monolithic construction, which allowed for a faster completion time.

新的市政厅采用了整体式建筑，这使得建设时间更快。

5.One of the advantages of monolithic construction is its durability in harsh weather conditions.

整体式建筑的一个优点是它在恶劣天气条件下的耐久性。

作文

In recent years, the construction industry has seen a significant shift towards innovative building techniques. One of the most prominent methods gaining traction is monolithic construction, which refers to the process of creating structures from a single, continuous pour of concrete or other materials. This approach contrasts sharply with traditional construction methods that often involve assembling multiple components separately. The benefits of monolithic construction are numerous and can lead to more efficient and sustainable building practices.Firstly, one of the key advantages of monolithic construction is its strength and durability. Structures built using this technique are less susceptible to cracking and shifting compared to those constructed with separate elements. This is due to the seamless nature of the material, which provides a unified structure that can withstand various environmental stresses. For example, buildings in earthquake-prone areas benefit significantly from this method, as the continuous form helps distribute seismic forces evenly throughout the structure.Moreover, monolithic construction can lead to faster build times. Since the entire structure is poured at once, there is no need for time-consuming assembly of individual parts. This efficiency not only reduces labor costs but also shortens the overall project timeline. In an era where time is often equated with money, the ability to complete projects quickly can be a considerable advantage for contractors and developers alike.Additionally, the energy efficiency of monolithic construction cannot be overlooked. The solid mass of the walls created through this method provides excellent insulation, helping to maintain stable indoor temperatures. This characteristic can lead to lower energy bills for heating and cooling, making it an attractive option for environmentally conscious builders and homeowners. Furthermore, the reduced number of joints and seams means less air leakage, contributing to overall energy savings.Another important aspect of monolithic construction is its versatility. This technique can be applied to various types of structures, including residential homes, commercial buildings, and even infrastructure projects like bridges and tunnels. The adaptability of this method allows architects and builders to explore creative designs without being hindered by the limitations of traditional construction materials.However, despite its many benefits, monolithic construction is not without challenges. The initial cost of materials and equipment can be higher than conventional methods, which may deter some builders from adopting this approach. Additionally, specialized knowledge and skills are required to execute this type of construction effectively. As such, training and education in monolithic construction techniques are crucial for ensuring quality results.In conclusion, monolithic construction represents a forward-thinking approach in the construction industry, offering numerous advantages such as increased strength, faster build times, energy efficiency, and design versatility. As the demand for sustainable and efficient building methods continues to grow, it is likely that monolithic construction will play an increasingly significant role in shaping the future of architecture and construction. Embracing this innovative technique could lead to a new era of building that prioritizes durability and sustainability, ultimately benefiting both builders and occupants alike.

近年来，建筑行业经历了向创新建筑技术的显著转变。其中一种越来越受到关注的方法是整体式建筑，指的是通过一次性连续浇筑混凝土或其他材料来创建结构的过程。这种方法与传统的建筑方式形成鲜明对比，后者通常涉及单独组装多个组件。整体式建筑的好处众多，可以导致更高效和可持续的建筑实践。首先，整体式建筑的一个关键优势是其强度和耐久性。采用这种技术建造的结构相比于用单独元素构造的结构，不太容易出现裂缝和位移。这是由于材料的无缝特性，提供了一个统一的结构，可以承受各种环境压力。例如，地震频发地区的建筑可以从这种方法中获益，因为连续的形态有助于将地震力均匀分配到整个结构上。此外，整体式建筑还可以加快施工时间。由于整个结构一次性浇筑，因此不需要耗时的单个部分组装。这种效率不仅降低了人工成本，而且缩短了整体项目时间表。在一个时间常常被视为金钱的时代，能够迅速完成项目对于承包商和开发商来说都是一个相当大的优势。另外，整体式建筑的能效也不容忽视。通过这种方法创建的墙体的实心质量提供了出色的绝缘性能，有助于保持室内温度稳定。这一特性可以降低供暖和制冷的能源账单，使其成为环保意识强的建筑商和房主的吸引选项。此外，接缝和缝隙的减少意味着空气泄漏更少，从而有助于总体节能。整体式建筑的另一个重要方面是其多功能性。这种技术可以应用于多种类型的结构，包括住宅、商业建筑，甚至基础设施项目，如桥梁和隧道。这种方法的适应性使建筑师和建筑商能够探索创造性的设计，而不受传统建筑材料局限的限制。然而，尽管有许多优点，整体式建筑并非没有挑战。材料和设备的初始成本可能高于传统方法，这可能会阻止一些建筑商采用这种方法。此外，执行这种类型的建筑有效地需要专业知识和技能。因此，对整体式建筑技术的培训和教育对于确保质量结果至关重要。总之，整体式建筑代表了建筑行业的一种前瞻性方法，提供了诸如增强强度、更快施工时间、能效和设计多样性等众多优势。随着对可持续和高效建筑方法的需求不断增长，整体式建筑在塑造建筑和施工未来方面可能会发挥越来越重要的作用。接受这一创新技术可能会引领建筑的新纪元，优先考虑耐用性和可持续性，最终使建筑商和居住者都受益。