composite roof truss

简明释义

组合屋架

英英释义

例句

1.The composite roof truss design allows for larger open spaces without the need for interior columns.

这种复合屋顶桁架设计允许在不需要内部柱子的情况下实现更大的开放空间。

2.The engineers decided to use a composite roof truss for the new sports complex due to its strength and lightweight properties.

工程师们决定在新的体育综合体中使用复合屋顶桁架，因为它具有强度和轻量化的特性。

3.The architect recommended a composite roof truss for its aesthetic appeal and structural efficiency.

建筑师推荐使用复合屋顶桁架，因为它具有美观的外观和结构效率。

4.Using a composite roof truss can significantly reduce the overall weight of the building structure.

使用复合屋顶桁架可以显著减少建筑结构的整体重量。

5.In the construction of the warehouse, a composite roof truss was installed to support the heavy roof panels.

在仓库的建设中，安装了复合屋顶桁架以支撑重型屋顶面板。

作文

In the world of modern architecture and engineering, the efficiency and strength of building structures are paramount. One such innovative design element is the composite roof truss, which combines different materials to create a lightweight yet robust framework for roofs. This design not only enhances the structural integrity of buildings but also allows for greater flexibility in architectural designs. The composite roof truss (复合屋顶桁架) typically integrates materials like steel and timber, leveraging the strengths of each material to optimize performance. The use of a composite roof truss can significantly reduce the amount of material needed for construction while maintaining safety and durability standards. For instance, steel provides excellent tensile strength, making it ideal for supporting heavy loads. On the other hand, timber offers natural insulation properties and aesthetic appeal. By combining these materials, engineers can create a truss that is both strong and energy-efficient.One of the primary advantages of using a composite roof truss is its ability to span larger distances without the need for additional support columns. This feature is particularly beneficial in commercial and industrial buildings, where open spaces are often required for flexibility in layout. The reduced number of support columns not only maximizes usable space but also minimizes construction costs, as fewer materials and less labor are needed.Moreover, the design of a composite roof truss can be tailored to meet specific architectural requirements. For example, the angle and shape of the truss can be adjusted to accommodate various roofing styles, whether it be flat, pitched, or arched. This versatility makes it an attractive option for architects seeking to push the boundaries of traditional building designs.Additionally, composite roof trusses can enhance energy efficiency in buildings. The integration of insulating materials within the truss design helps to reduce heat loss during winter and minimize heat gain during summer. This characteristic not only contributes to a more comfortable indoor environment but also lowers energy costs, making buildings more sustainable in the long run.However, the implementation of composite roof trusses does come with challenges. The design and construction process requires careful planning and expertise to ensure that the materials are properly integrated and that the truss can handle the anticipated loads. Engineers must conduct thorough analyses and simulations to predict how the truss will perform under various conditions.In conclusion, the composite roof truss (复合屋顶桁架) represents a significant advancement in building technology, offering a combination of strength, flexibility, and energy efficiency. As the demand for innovative and sustainable building solutions continues to grow, the adoption of composite materials in structural designs will likely become more prevalent. By understanding and utilizing the benefits of composite roof trusses, architects and engineers can create safer, more efficient, and aesthetically pleasing buildings that meet the needs of modern society.

在现代建筑和工程的世界中，建筑结构的效率和强度至关重要。其中一个创新的设计元素是复合屋顶桁架，它将不同的材料结合在一起，为屋顶创造出一种轻巧而坚固的框架。这种设计不仅增强了建筑的结构完整性，还允许建筑设计具有更大的灵活性。复合屋顶桁架通常结合了钢材和木材，利用每种材料的优点来优化性能。使用复合屋顶桁架可以显著减少建筑所需的材料数量，同时保持安全和耐用标准。例如，钢材提供了优良的拉伸强度，非常适合支撑重物。另一方面，木材则提供了天然的绝缘特性和美学吸引力。通过结合这些材料，工程师可以创建出既强大又节能的桁架。使用复合屋顶桁架的主要优点之一是其能够在不需要额外支撑柱的情况下跨越更大的距离。这一特性在商业和工业建筑中尤为有利，因为这些建筑通常需要开放空间以便于布局的灵活性。支撑柱数量的减少不仅最大化了可用空间，还降低了建筑成本，因为所需的材料和劳动力更少。此外，复合屋顶桁架的设计可以根据特定的建筑要求进行调整。例如，桁架的角度和形状可以根据不同的屋顶风格进行调整，无论是平屋顶、斜屋顶还是拱形屋顶。这种多样性使其成为寻求突破传统建筑设计界限的建筑师的一个有吸引力的选择。此外，复合屋顶桁架还可以提高建筑的能源效率。在桁架设计中集成绝缘材料有助于减少冬季的热损失，并在夏季最小化热增益。这一特性不仅有助于创造更舒适的室内环境，还降低了能源费用，使建筑在长期内更加可持续。然而，实施复合屋顶桁架也面临挑战。设计和施工过程需要仔细的规划和专业知识，以确保材料得到妥善整合，并且桁架能够承受预期的负荷。工程师必须进行彻底的分析和模拟，以预测桁架在各种条件下的表现。总之，复合屋顶桁架（复合屋顶桁架）代表了建筑技术的一项重大进展，提供了强度、灵活性和能源效率的结合。随着对创新和可持续建筑解决方案的需求不断增长，复合材料在结构设计中的采用可能会变得更加普遍。通过理解和利用复合屋顶桁架的好处，建筑师和工程师可以创建出更安全、更高效且美观的建筑，以满足现代社会的需求。