monolithic grillage

简明释义

整体式格床

英英释义

例句

1.Engineers recommended a monolithic grillage to reduce the risk of structural failure.

工程师建议使用整体式格栅以降低结构失效的风险。

2.A monolithic grillage allows for better load distribution in large structures.

整体式格栅可以在大型结构中实现更好的荷载分布。

3.The construction team decided to use a monolithic grillage for the foundation to ensure stability.

施工团队决定使用整体式格栅作为基础，以确保稳定性。

4.The bridge was supported by a robust monolithic grillage that could withstand heavy traffic.

这座桥由一个坚固的整体式格栅支撑，能够承受重型交通。

5.In seismic areas, a monolithic grillage can provide additional resistance against earthquakes.

在地震区，整体式格栅可以提供额外的抗震能力。

作文

The concept of a monolithic grillage refers to a structural framework that is designed as a single, unified entity. This type of construction is typically used in engineering and architecture to provide stability and strength to various types of buildings and infrastructure. A monolithic grillage is characterized by its continuous nature, which allows for the distribution of loads across the entire structure rather than concentrating them at specific points. This feature is particularly beneficial in scenarios where the ground conditions are variable or where heavy loads need to be supported.In civil engineering, the use of a monolithic grillage can significantly enhance the performance of foundations. For instance, when constructing a large building, engineers often opt for this type of foundation system to ensure that the weight of the structure is evenly spread out. By utilizing a continuous framework, the risk of differential settlement is minimized, which can lead to structural damage over time. Furthermore, a monolithic grillage can be designed to accommodate various loading conditions, including wind and seismic activities, making it a versatile choice for modern construction projects.The advantages of implementing a monolithic grillage extend beyond just structural integrity. Economically, this approach can lead to cost savings during the construction phase. Since the framework acts as a single unit, fewer materials may be required compared to traditional methods that rely on separate footings or piers. Additionally, the simplified construction process can reduce labor costs and project timelines, allowing for quicker completion of the building.Moreover, environmental considerations are becoming increasingly important in construction practices. The use of a monolithic grillage can contribute to sustainability efforts by reducing the amount of concrete and other materials needed. This not only minimizes waste but also decreases the carbon footprint associated with transporting and producing construction materials. As the industry shifts towards more eco-friendly practices, the monolithic grillage presents an attractive option for builders looking to meet these new standards.Despite its many benefits, there are challenges associated with the design and implementation of a monolithic grillage. Engineers must carefully consider factors such as soil properties, load requirements, and environmental conditions to ensure that the structure performs as intended. Additionally, the initial design phase requires advanced modeling techniques to predict how the structure will behave under various stresses. These complexities necessitate a high level of expertise, making collaboration between architects and engineers essential.In conclusion, the monolithic grillage represents a significant advancement in construction methodologies, offering numerous benefits in terms of stability, cost-effectiveness, and environmental impact. As the demand for innovative building solutions continues to grow, understanding and mastering the principles behind a monolithic grillage will be crucial for future engineers and architects. By embracing this approach, the industry can pave the way for safer, more sustainable, and efficient structures that meet the needs of modern society.

“整体格栅”这一概念指的是一种作为单一统一实体设计的结构框架。这种类型的建筑通常用于工程和建筑领域，以为各种类型的建筑和基础设施提供稳定性和强度。“整体格栅”的特点在于其连续性，这使得负载能够在整个结构上分布，而不是集中在特定点。这一特征在地面条件多变或需要支撑重负荷的情况下特别有利。在土木工程中，采用“整体格栅”可以显著提高基础的性能。例如，在建造大型建筑时，工程师通常选择这种类型的基础系统，以确保结构的重量均匀分布。通过利用连续框架，差异沉降的风险被最小化，这可能导致随着时间推移而造成的结构损坏。此外，“整体格栅”可以设计成适应各种加载条件，包括风力和地震活动，使其成为现代建筑项目的多功能选择。实施“整体格栅”的优势不仅限于结构完整性。在经济上，这种方法可以在施工阶段节省成本。由于框架作为一个单元工作，与依赖单独基础或支柱的传统方法相比，可能需要更少的材料。此外，简化的施工过程可以减少人工成本和项目时间表，从而加快建筑的完成。此外，环境因素在建筑实践中变得越来越重要。使用“整体格栅”可以通过减少所需混凝土和其他材料的数量来促进可持续发展努力。这不仅能最小化废物，还能减少与运输和生产建筑材料相关的碳足迹。随着行业向更环保的实践转变，“整体格栅”为希望满足这些新标准的建筑商提供了一个有吸引力的选择。尽管有许多优点，但设计和实施“整体格栅”也面临挑战。工程师必须仔细考虑土壤特性、负载要求和环境条件，以确保结构按预期运行。此外，初始设计阶段需要先进的建模技术，以预测结构在各种压力下的表现。这些复杂性要求较高的专业知识，使得建筑师和工程师之间的合作至关重要。总之，“整体格栅”代表了建筑方法的重要进步，在稳定性、经济效益和环境影响等方面提供了众多好处。随着对创新建筑解决方案的需求不断增长，理解和掌握“整体格栅”背后的原理将对未来的工程师和建筑师至关重要。通过采用这种方法，行业可以为更安全、更可持续和更高效的结构铺平道路，以满足现代社会的需求。