transverse framing

简明释义

横框结构式

英英释义

例句

1.For the new warehouse, the architect recommended using transverse framing to maximize storage space.

对于新的仓库，建筑师建议使用横向框架以最大化存储空间。

2.The engineers decided that transverse framing would enhance the stability of the bridge under heavy loads.

工程师们决定，横向框架将增强桥梁在重载下的稳定性。

3.In architectural design, transverse framing is often used to provide structural support across the width of a building.

在建筑设计中，横向框架通常用于提供建筑物宽度方向的结构支撑。

4.The transverse framing in this design allows for greater flexibility in interior layout.

这个设计中的横向框架允许室内布局具有更大的灵活性。

5.During the construction process, the team installed transverse framing to ensure the walls remained upright.

在施工过程中，团队安装了横向框架以确保墙壁保持直立。

作文

In the study of architecture and design, various techniques are employed to create structures that are not only functional but also aesthetically pleasing. One such technique is known as transverse framing, which refers to the method of constructing a framework that runs perpendicular to the primary load-bearing elements of a building. This approach enhances the stability and strength of the structure while allowing for greater flexibility in design. Understanding transverse framing is essential for architects and builders as it plays a crucial role in ensuring the longevity and safety of a construction project.The concept of transverse framing can be traced back to traditional building methods where wooden beams were used to create a grid-like structure. By placing these beams at right angles to the main supports, builders could distribute weight more evenly and reduce the risk of structural failure. In modern architecture, this principle is applied using various materials such as steel and concrete, which provide even greater strength and durability.One of the key advantages of transverse framing is its ability to allow for open interior spaces. Unlike traditional framing methods that often require numerous load-bearing walls, transverse framing enables designers to create large, unobstructed areas within a building. This is particularly beneficial in commercial spaces, where flexibility and adaptability are vital for accommodating changing needs.Moreover, transverse framing contributes to the overall aesthetic appeal of a building. By utilizing this technique, architects can experiment with different shapes and forms, leading to innovative designs that stand out in urban landscapes. For example, many contemporary buildings feature exposed transverse framing elements that highlight the structural components, creating a visually striking contrast between the raw materials and the finished surfaces.In addition to its design benefits, transverse framing also plays a significant role in energy efficiency. Buildings constructed with this method often incorporate advanced insulation techniques, which help regulate temperature and reduce energy consumption. As sustainability becomes an increasingly important consideration in architecture, the use of transverse framing can contribute to greener building practices by minimizing waste and optimizing resource use.However, implementing transverse framing does come with its challenges. It requires careful planning and precise engineering to ensure that the framework can adequately support the loads placed upon it. Additionally, builders must consider factors such as seismic activity and wind resistance, particularly in regions prone to natural disasters. Despite these challenges, the benefits of transverse framing often outweigh the drawbacks, making it a popular choice among architects and engineers.In conclusion, transverse framing is a fundamental technique in the field of architecture that enhances both the functionality and aesthetics of buildings. Its ability to create open spaces, promote energy efficiency, and allow for innovative designs makes it an invaluable tool for modern architects. As the industry continues to evolve, understanding and mastering transverse framing will remain essential for those looking to push the boundaries of architectural design and construction. By embracing this technique, builders can create structures that are not only safe and durable but also inspire and captivate those who inhabit them.

在建筑和设计的研究中，采用各种技术来创建既功能性又美观的结构。其中一种技术被称为横向框架，它指的是构造一个框架的方法，该框架垂直于建筑物的主要承重元素。这种方法增强了结构的稳定性和强度，同时允许更大的设计灵活性。理解横向框架对建筑师和施工人员至关重要，因为它在确保建筑项目的耐久性和安全性方面发挥着关键作用。横向框架的概念可以追溯到传统建筑方法，当时使用木梁来创建网格状的结构。通过将这些梁以直角放置于主要支撑物上，建筑工人能够更均匀地分配重量，减少结构失效的风险。在现代建筑中，这一原则通过使用各种材料，例如钢和混凝土，得到了应用，这些材料提供了更大的强度和耐用性。横向框架的一个关键优势是它能够允许开放的室内空间。与传统的框架方法相比，后者通常需要许多承重墙，横向框架使设计师能够在建筑内部创造出大型、无障碍的区域。这在商业空间中尤其有利，因为灵活性和适应性对于满足不断变化的需求至关重要。此外，横向框架也有助于建筑的整体美学吸引力。通过利用这一技术，建筑师可以尝试不同的形状和形式，从而导致创新设计，在城市景观中脱颖而出。例如，许多现代建筑采用暴露的横向框架元素，突出结构组件，形成原材料与成品表面之间的视觉对比。除了设计优势，横向框架在能源效率方面也发挥着重要作用。采用这种方法建造的建筑通常结合先进的绝缘技术，有助于调节温度并减少能源消耗。随着可持续性在建筑行业中变得越来越重要，使用横向框架可以通过最小化浪费和优化资源使用来促进更环保的建筑实践。然而，实施横向框架确实会带来一些挑战。它需要仔细的规划和精确的工程设计，以确保框架能够充分支撑其上的负荷。此外，建筑工人必须考虑地震活动和风阻等因素，特别是在自然灾害频发的地区。尽管存在这些挑战，横向框架的好处往往超过缺点，使其成为建筑师和工程师的热门选择。总之，横向框架是建筑领域的一项基本技术，增强了建筑的功能性和美学。它能够创造开放空间、促进能源效率并允许创新设计，使其成为现代建筑师的重要工具。随着行业的不断发展，理解和掌握横向框架将继续对那些希望推动建筑设计和施工边界的人至关重要。通过采用这一技术，建筑工人可以创建出不仅安全且耐用，而且能激励和吸引居住者的结构。