longitudinal-transverse framing system

简明释义

纵横构架式

英英释义

例句

1.The research paper detailed the advantages of a longitudinal-transverse framing system in modern architecture.

研究论文详细介绍了纵向-横向框架系统在现代建筑中的优势。

2.The architect proposed a new design that utilized a longitudinal-transverse framing system to enhance structural stability.

建筑师提出了一种新设计，采用了纵向-横向框架系统以增强结构稳定性。

3.The longitudinal-transverse framing system is essential for high-rise buildings to resist lateral forces during earthquakes.

纵向-横向框架系统对于高层建筑抵抗地震时的横向力至关重要。

4.By using a longitudinal-transverse framing system, the construction team was able to reduce material costs while maintaining safety.

通过使用纵向-横向框架系统，施工团队能够降低材料成本，同时保持安全性。

5.In the construction of the bridge, engineers implemented a longitudinal-transverse framing system to distribute loads effectively.

在桥梁的建设中，工程师们采用了纵向-横向框架系统来有效分配荷载。

作文

The architectural and engineering disciplines have long relied on various structural systems to ensure the stability and functionality of buildings and other constructions. One such system that has gained prominence in recent years is the longitudinal-transverse framing system. This innovative approach combines two primary orientations of structural elements: longitudinal and transverse. Understanding this system is crucial for engineers and architects who aim to create resilient and efficient structures.The term 'longitudinal' refers to elements that run parallel to the length of a building, while 'transverse' pertains to those that run perpendicular to it. By integrating these two orientations, the longitudinal-transverse framing system provides enhanced support and stability. This dual framing strategy allows for better load distribution across the structure, which is particularly important in regions prone to seismic activity or high winds.One of the key advantages of the longitudinal-transverse framing system is its ability to accommodate various architectural designs. Unlike traditional framing methods that may limit design flexibility, this system allows architects to explore more creative and complex shapes without compromising structural integrity. For instance, in modern skyscrapers, the incorporation of this framing system can lead to unique facades and floor plans that are both aesthetically pleasing and structurally sound.Moreover, the longitudinal-transverse framing system can contribute to improved construction efficiency. By utilizing standardized components that can be prefabricated, builders can reduce on-site construction time and labor costs. This prefabrication also minimizes waste, making the construction process more sustainable. As the construction industry increasingly focuses on reducing its environmental impact, systems like the longitudinal-transverse framing system play a vital role in promoting eco-friendly practices.In addition to its practical benefits, the longitudinal-transverse framing system also enhances the overall safety of structures. By providing a robust framework that can withstand various forces, buildings constructed with this system are better equipped to handle unexpected events, such as earthquakes or severe weather conditions. This reliability is essential for ensuring the safety of occupants and protecting investments in real estate.As we look to the future of architecture and construction, the longitudinal-transverse framing system stands out as a promising solution for creating safe, efficient, and visually appealing structures. Engineers and architects must continue to explore and innovate within this framework to address the challenges posed by urbanization, climate change, and evolving societal needs. Embracing such advanced systems will not only enhance the performance of buildings but also contribute to the development of sustainable communities.In conclusion, the longitudinal-transverse framing system represents a significant advancement in structural engineering and architecture. Its combination of longitudinal and transverse elements allows for greater flexibility, efficiency, and safety in construction. As the industry evolves, understanding and implementing this system will be crucial for professionals aiming to push the boundaries of design and functionality in the built environment.

建筑和工程学科长期以来依赖各种结构系统，以确保建筑物和其他建筑的稳定性和功能性。其中一种近年来受到重视的系统是纵向-横向框架系统。这种创新的方法结合了结构元素的两种主要方向：纵向和横向。理解这个系统对于旨在创建坚固高效结构的工程师和建筑师至关重要。“纵向”一词指的是沿建筑长度方向延伸的元素，而“横向”则指垂直于其方向的元素。通过整合这两种方向，纵向-横向框架系统提供了增强的支撑和稳定性。这种双框架策略允许更好的负载分布在整个结构中，这在易发生地震或强风的地区尤为重要。纵向-横向框架系统的一个关键优势是其能够适应各种建筑设计。与可能限制设计灵活性的传统框架方法不同，该系统允许建筑师探索更具创意和复杂的形状，而不妨碍结构的完整性。例如，在现代摩天大楼中，结合这一框架系统可以导致独特的立面和楼层平面，这些既美观又结构合理。此外，纵向-横向框架系统还可以提高施工效率。通过利用可以预制的标准化组件，建筑商可以减少现场施工时间和人工成本。这种预制也最小化了浪费，使得施工过程更加可持续。随着建筑行业越来越关注减少环境影响，像纵向-横向框架系统这样的系统在促进环保实践方面发挥着重要作用。除了实际好处外，纵向-横向框架系统还增强了结构的整体安全性。通过提供一个坚固的框架，可以承受各种力量，使用该系统建造的建筑更能有效应对意外事件，如地震或恶劣天气条件。这种可靠性对于确保居住者的安全和保护房地产投资至关重要。展望建筑和施工的未来，纵向-横向框架系统作为创建安全、高效和视觉上吸引人的结构的有希望的解决方案脱颖而出。工程师和建筑师必须继续在这一框架内探索和创新，以应对城市化、气候变化和不断演变的社会需求所带来的挑战。拥抱这样的先进系统不仅将提升建筑的性能，还将有助于可持续社区的发展。总之，纵向-横向框架系统代表了结构工程和建筑领域的重要进步。它将纵向和横向元素相结合，允许在施工中实现更大的灵活性、效率和安全性。随着行业的发展，理解和实施这一系统对于希望推动建筑设计和功能边界的专业人士来说至关重要。