built-up stanchion

简明释义

组合柱

英英释义

例句

1.The architect specified a built-up stanchion for the new office building to enhance structural integrity.

建筑师为新办公大楼指定了一个加固立柱以增强结构完整性。

2.We need to calculate the stress distribution on the built-up stanchion before finalizing the design.

在最终确定设计之前，我们需要计算加固立柱上的应力分布。

3.The built-up stanchion design allows for greater load-bearing capacity compared to standard columns.

与标准柱相比，加固立柱设计允许更大的承载能力。

4.During the inspection, the engineer noted that the built-up stanchion showed signs of wear and needed reinforcement.

在检查过程中，工程师注意到加固立柱出现磨损迹象，需进行加固。

5.The construction team installed a new built-up stanchion to support the heavy beams in the warehouse.

施工队安装了一个新的加固立柱来支撑仓库中的重梁。

作文

In the world of construction and engineering, various components play crucial roles in ensuring the stability and functionality of structures. One such component is the built-up stanchion, which serves as a vital support system for buildings and other infrastructures. A built-up stanchion (加固柱) is essentially a vertical support structure that is made by combining multiple steel sections or plates to create a stronger and more durable column. This method of construction allows for greater load-bearing capacity compared to traditional single-piece columns, making it an essential choice for larger buildings and industrial applications.The design of a built-up stanchion is often tailored to meet specific structural requirements. Engineers consider factors such as the expected loads, environmental conditions, and the overall architectural design when determining the dimensions and materials for these stanchions. For instance, in high-rise buildings where wind and seismic forces are significant, a well-designed built-up stanchion can provide the necessary strength and stability to withstand these challenges.One of the key advantages of using a built-up stanchion is its versatility. By varying the configuration and materials used, engineers can create stanchions that are optimized for different types of loads and stresses. This adaptability makes them suitable for a wide range of applications, from commercial skyscrapers to bridges and industrial warehouses. Additionally, the use of a built-up stanchion can lead to cost savings during construction, as they can be fabricated off-site and assembled on location, reducing labor and material costs.Moreover, the aesthetic aspect of a built-up stanchion should not be overlooked. In modern architecture, exposed structural elements have become a popular design trend. Architects often incorporate these stanchions into their designs, showcasing their beauty while maintaining functionality. This dual purpose enhances both the structural integrity and the visual appeal of a building.However, the fabrication and installation of built-up stanchions require skilled labor and precise engineering. The connection points, welds, and bolts must be executed with care to ensure the overall strength of the structure. Any flaws in the construction process can lead to significant safety risks, emphasizing the importance of quality control in the building industry.In conclusion, the built-up stanchion (加固柱) is a fundamental element in modern construction that provides both strength and versatility. Its ability to bear heavy loads, combined with the potential for aesthetic integration into architectural designs, makes it an invaluable asset in the engineering field. As we continue to push the boundaries of architectural design and construction techniques, the role of built-up stanchions will undoubtedly remain significant in creating safe and innovative structures for the future.