integral construction

简明释义

整体构造

英英释义

例句

1.In modern engineering, integral construction 整体结构 techniques are being adopted to reduce material waste.

在现代工程中，正在采用integral construction 整体结构 技术以减少材料浪费。

2.The architect emphasized that the integral construction 整体结构 of the building is essential for its stability.

建筑师强调，建筑的integral construction 整体结构 对其稳定性至关重要。

3.The integral construction 整体结构 of the skyscraper allows for more open floor plans.

摩天大楼的integral construction 整体结构 使得更开放的楼层布局成为可能。

4.Engineers often use integral construction 整体结构 principles to enhance the durability of structures.

工程师经常使用integral construction 整体结构 原则来增强结构的耐久性。

5.The team focused on integral construction 整体结构 to ensure the bridge could withstand heavy loads.

团队专注于integral construction 整体结构 以确保桥梁能够承受重载。

作文

In the field of architecture and engineering, the term integral construction refers to a design and building methodology that emphasizes the importance of integrating various components and systems into a cohesive whole. This approach is essential for creating structures that are not only aesthetically pleasing but also functional and sustainable. The concept of integral construction goes beyond mere assembly; it involves a holistic view of the project from the initial planning stages through to completion. One of the primary benefits of integral construction is improved efficiency. By considering all aspects of a building's design and construction simultaneously, architects and engineers can identify potential issues early in the process. This proactive approach minimizes delays and reduces costs, as changes made during the later stages of construction can be significantly more expensive. For instance, if structural elements are designed without considering mechanical systems like HVAC or plumbing, adjustments may need to be made on-site, leading to costly rework. Moreover, integral construction fosters collaboration among various stakeholders. In traditional construction methods, different teams often work in silos, which can lead to miscommunication and fragmented results. However, when employing an integral construction strategy, architects, engineers, contractors, and even clients work together from the outset. This collaborative environment encourages the sharing of ideas and expertise, ultimately resulting in a better final product. Another important aspect of integral construction is its focus on sustainability. As the world faces increasing environmental challenges, the construction industry must adapt by adopting practices that minimize waste and reduce energy consumption. An integral construction approach allows for the incorporation of sustainable materials and technologies right from the design phase. For example, buildings can be designed to maximize natural light and ventilation, reducing the need for artificial lighting and climate control systems. Additionally, integrating renewable energy sources, such as solar panels, can be seamlessly incorporated into the overall design, further enhancing a building's sustainability. Furthermore, the use of advanced technologies plays a crucial role in integral construction. Building Information Modeling (BIM) is one such technology that allows for the creation of a digital representation of a building's physical and functional characteristics. BIM facilitates better visualization, coordination, and simulation of the construction process, enabling teams to foresee potential challenges and address them proactively. By leveraging these technologies, the integral construction method can lead to higher quality outcomes and increased client satisfaction. In conclusion, integral construction represents a paradigm shift in the way we approach building design and construction. By prioritizing integration, collaboration, and sustainability, this methodology not only enhances efficiency and reduces costs but also contributes to the creation of spaces that are better suited to meet the needs of our evolving society. As we continue to face global challenges, embracing integral construction will be essential for fostering innovation and resilience in the built environment.

在建筑和工程领域，术语整体施工指的是一种设计和建造方法论，强调将各种组件和系统整合为一个统一整体的重要性。这种方法对于创建不仅美观而且功能齐全、可持续的结构至关重要。整体施工的概念超越了简单的组装；它涉及从初始规划阶段到完成的整个项目的整体视角。整体施工的主要好处之一是提高效率。通过同时考虑建筑设计和施工的所有方面，建筑师和工程师可以在过程早期识别潜在问题。这种主动的方法可以最小化延误并降低成本，因为在施工后期进行的更改可能会显著增加费用。例如，如果结构元素的设计没有考虑机械系统，如暖通空调或管道，则可能需要在现场进行调整，从而导致昂贵的返工。此外，整体施工促进了各利益相关者之间的合作。在传统的施工方法中，不同的团队往往在孤立的环境中工作，这可能导致沟通不畅和结果碎片化。然而，当采用整体施工策略时，建筑师、工程师、承包商甚至客户从一开始就共同合作。这种协作环境鼓励分享想法和专业知识，最终导致更好的最终产品。整体施工的另一个重要方面是其对可持续性的关注。随着世界面临日益严重的环境挑战，建筑行业必须通过采用减少浪费和降低能耗的做法来适应。整体施工方法允许在设计阶段就整合可持续材料和技术。例如，建筑可以设计为最大限度地利用自然光和通风，从而减少对人工照明和气候控制系统的需求。此外，可再生能源来源（如太阳能电池板）可以无缝融入整体设计，进一步提升建筑的可持续性。此外，先进技术的使用在整体施工中发挥着至关重要的作用。建筑信息建模（BIM）就是一种技术，它允许创建建筑物物理和功能特征的数字表示。BIM促进了施工过程的更好可视化、协调和模拟，使团队能够预见潜在挑战并积极应对。通过利用这些技术，整体施工方法可以实现更高质量的成果和更高的客户满意度。总之，整体施工代表了我们在建筑设计和施工方式上的范式转变。通过优先考虑整合、合作和可持续性，这种方法论不仅提高了效率并降低了成本，还促进了创造更能满足我们不断发展的社会需求的空间。随着我们继续面临全球挑战，拥抱整体施工对于推动建筑环境中的创新和韧性至关重要。