monolithic construction

简明释义

整体建造

英英释义

例句

1.Many modern schools are built using monolithic construction (整体建筑) techniques to enhance safety.

许多现代学校采用整体建筑（整体建筑）技术来增强安全性。

2.Due to its durability, monolithic construction (整体建筑) is often favored in areas prone to natural disasters.

由于其耐用性，整体建筑（整体建筑）在容易发生自然灾害的地区通常更受青睐。

3.The architect explained that monolithic construction (整体建筑) allows for greater design flexibility.

建筑师解释说，整体建筑（整体建筑）允许更大的设计灵活性。

4.The city council approved the new housing project, which will utilize monolithic construction (整体建筑) to reduce costs and time.

市议会批准了新的住房项目，该项目将采用整体建筑（整体建筑）来降低成本和时间。

5.The use of monolithic construction (整体建筑) can significantly speed up the building process.

使用整体建筑（整体建筑）可以显著加快建筑过程。

作文

The term monolithic construction refers to a method of building that involves creating structures from a single, continuous material. This approach has gained popularity in recent years due to its numerous advantages over traditional building methods. In this essay, I will explore the benefits and challenges associated with monolithic construction, as well as its applications in modern architecture. One of the primary benefits of monolithic construction is its efficiency. Because the structure is built as a single unit, there is less time spent on assembly compared to conventional methods that involve multiple components. This can significantly reduce labor costs and project timelines. Additionally, the use of a single material often leads to fewer construction errors, as there are fewer parts to fit together. Another advantage of monolithic construction is its durability. Structures built using this method tend to be more resistant to environmental factors such as wind, water, and seismic activity. For example, homes constructed with monolithic construction techniques have been shown to withstand hurricanes better than those built with traditional wood framing. This makes it an appealing choice for regions prone to extreme weather conditions. Moreover, monolithic construction can contribute to energy efficiency. The continuous nature of the walls reduces thermal bridging, which can lead to heat loss in traditional buildings. As a result, homes and commercial buildings built using this technique often require less energy for heating and cooling, leading to lower utility bills and a reduced carbon footprint. However, despite its many advantages, monolithic construction does come with some challenges. One significant hurdle is the initial cost of materials and equipment. The specialized forms and molds required for monolithic construction can be expensive, which may deter some builders from adopting this method. Additionally, the skill level required for workers is higher, as they must be trained in the specific techniques involved in this type of construction. Furthermore, there may be limitations in design flexibility. While monolithic construction allows for innovative shapes and designs, the reliance on a single material can sometimes restrict architectural creativity. Builders must carefully plan the design to ensure that it meets both aesthetic and functional requirements. In conclusion, monolithic construction represents a modern approach to building that offers numerous benefits, including efficiency, durability, and energy savings. However, it also poses challenges related to cost, skill requirements, and design flexibility. As the construction industry continues to evolve, it is likely that we will see more widespread adoption of monolithic construction techniques, particularly in areas where resilience to environmental factors is paramount. By addressing the challenges associated with this method, builders can harness its full potential and contribute to a more sustainable future in architecture.

术语单体建筑指的是一种建筑方法，涉及使用单一、连续的材料来创建结构。这种方法近年来因其相对于传统建筑方法的众多优势而受到欢迎。在这篇文章中，我将探讨与单体建筑相关的好处和挑战，以及它在现代建筑中的应用。单体建筑的一个主要优点是其效率。由于结构作为一个单元构建，相比于涉及多个组件的传统方法，组装所花费的时间更少。这可以显著降低人工成本和项目时间。此外，使用单一材料通常会导致更少的建筑错误，因为需要拼接的部分更少。单体建筑的另一个优势是其耐久性。使用这种方法建造的结构往往对风、水和地震等环境因素更具抵抗力。例如，采用单体建筑技术建造的房屋被证明比传统木框架建筑更能抵御飓风。这使得它成为易受极端天气影响地区的一个吸引选择。此外，单体建筑可以促进能源效率。墙体的连续性减少了热桥效应，这可能导致传统建筑中的热量损失。因此，使用这种技术建造的住宅和商业建筑通常需要更少的能源用于供暖和制冷，从而降低公用事业费用并减少碳足迹。然而，尽管有许多优点，单体建筑确实面临一些挑战。一个显著的障碍是材料和设备的初始成本。为单体建筑所需的专业模具和模板可能很昂贵，这可能会阻止一些建筑商采用这种方法。此外，工人所需的技能水平较高，因为他们必须接受特定技术的培训。此外，设计灵活性可能存在限制。虽然单体建筑允许创新的形状和设计，但对单一材料的依赖有时会限制建筑创意。建筑商必须仔细规划设计，以确保其满足美学和功能要求。总之，单体建筑代表了一种现代建筑方法，提供了众多好处，包括效率、耐久性和节能。然而，它也带来了与成本、技能要求和设计灵活性相关的挑战。随着建筑行业的不断发展，我们可能会看到单体建筑技术的更广泛采用，特别是在对环境因素的抗性至关重要的地区。通过解决与这种方法相关的挑战，建筑商可以充分利用其潜力，为建筑的可持续未来做出贡献。