diagonal stanchion

简明释义

斜支柱

英英释义

例句

1.When building the deck, we used a diagonal stanchion to ensure stability against strong winds.

在建造甲板时，我们使用了一根对角支柱以确保抵御强风的稳定性。

2.We noticed the diagonal stanchion was slightly bent after the storm, indicating it may need replacement.

我们注意到暴风雨后对角支柱稍微弯曲，这表明可能需要更换。

3.The construction team installed a diagonal stanchion to provide extra support for the framework.

施工队安装了一根对角支柱以提供框架额外的支持。

4.The engineer recommended adding a diagonal stanchion to the design to improve load distribution.

工程师建议在设计中添加一根对角支柱以改善载荷分布。

5.In the warehouse, each shelving unit is secured with a diagonal stanchion to prevent tipping.

在仓库中，每个货架单元都用一根对角支柱固定，以防止倾倒。

作文

In the world of engineering and architecture, structural integrity is paramount. One of the critical components that contribute to this integrity is the use of supports, such as beams and columns. Among these supports, the diagonal stanchion plays a vital role in enhancing stability and strength. A diagonal stanchion (对角支柱) is a structural element that is positioned at an angle, typically connecting horizontal members to vertical ones, providing additional support to the framework of a building or structure.The design of a diagonal stanchion allows it to effectively distribute loads and resist lateral forces, such as those caused by wind or earthquakes. By incorporating diagonal bracing into a structure, engineers can significantly improve its ability to withstand dynamic forces. This is particularly important in tall buildings or bridges where swaying can be a concern. The angled nature of the diagonal stanchion (对角支柱) helps to create a triangular configuration, which is one of the strongest shapes in structural engineering.In modern architecture, the use of diagonal stanchions has become increasingly popular, especially in designs that emphasize open spaces and large spans. For instance, in many contemporary buildings, you will find exposed diagonal stanchions that not only serve a functional purpose but also add to the aesthetic appeal of the structure. These elements can be made from various materials, including steel, wood, or reinforced concrete, allowing for versatility in design.Moreover, the implementation of diagonal stanchions is not limited to new constructions. In retrofitting older buildings to meet modern safety standards, engineers often introduce diagonal stanchions (对角支柱) to enhance the overall stability of the structure. This process involves assessing the existing framework and determining the best locations to add these diagonal supports without compromising the historical value of the building.Additionally, the concept of the diagonal stanchion extends beyond traditional architecture. In the realm of furniture design, for example, some tables and chairs incorporate diagonal supports to achieve a sleek look while maintaining structural stability. This innovative approach allows designers to create visually appealing pieces that are both functional and durable.In conclusion, the diagonal stanchion (对角支柱) is a crucial element in the field of engineering and architecture. Its ability to provide stability, distribute loads, and enhance aesthetic appeal makes it an invaluable component in modern construction. As we continue to push the boundaries of design and engineering, the importance of understanding and utilizing elements like the diagonal stanchion cannot be overstated. Whether in skyscrapers, bridges, or furniture, the principles behind the diagonal stanchion will undoubtedly remain relevant for years to come.

在工程和建筑的世界中，结构完整性至关重要。支撑物（如梁和柱）是实现这一完整性的关键组成部分。其中，对角支柱 在增强稳定性和强度方面发挥着重要作用。对角支柱 是一种以角度放置的结构元素，通常连接水平构件和垂直构件，为建筑或结构的框架提供额外支持。对角支柱 的设计使其能够有效分配负荷并抵抗侧向力，例如风或地震造成的力量。通过在结构中加入对角支撑，工程师可以显著提高其抵御动态力量的能力。这在高层建筑或桥梁中尤为重要，因为摇摆可能成为一个问题。对角支柱 的斜向特性有助于形成三角形配置，而三角形是结构工程中最强的形状之一。在现代建筑中，对角支柱 的使用变得越来越普遍，特别是在强调开放空间和大跨度的设计中。例如，在许多当代建筑中，您会发现裸露的对角支柱，这些支柱不仅具有功能用途，还增加了结构的美学吸引力。这些元素可以由各种材料制成，包括钢、木材或钢筋混凝土，从而在设计上实现多样性。此外，对角支柱 的应用不仅限于新建建筑。在对老建筑进行改造以符合现代安全标准时，工程师通常会引入对角支柱 来增强结构的整体稳定性。这个过程涉及评估现有框架，并确定最佳位置以添加这些对角支撑，而不影响建筑的历史价值。此外，对角支柱 的概念超越了传统建筑。在家具设计领域，例如，一些桌子和椅子采用对角支撑来实现流线型外观，同时保持结构稳定。这种创新的方法使设计师能够创造出既美观又耐用的功能性作品。总之，对角支柱 是工程和建筑领域的关键元素。它提供的稳定性、负荷分配和美学吸引力使其成为现代建筑中不可或缺的组成部分。随着我们不断推动设计和工程的界限，理解和利用像对角支柱 这样的元素的重要性不容小觑。无论是在摩天大楼、桥梁还是家具中，对角支柱 背后的原则无疑将在未来几年继续保持相关性。