reinforcing angle

简明释义

加固角钢

英英释义

例句

1.The construction team installed a reinforcing angle to provide additional support to the structure.

施工队安装了一个加固角以为结构提供额外的支撑。

2.The architect recommended adding a reinforcing angle to the corners of the building for better durability.

建筑师建议在建筑的角落添加一个加固角以提高耐久性。

3.In steel fabrication, a reinforcing angle is often utilized to enhance load-bearing capacity.

在钢材加工中，通常使用加固角来增强承载能力。

4.A properly installed reinforcing angle can prevent structural failure in high winds.

正确安装的加固角可以防止在强风中发生结构失效。

5.Using a reinforcing angle can significantly increase the stability of the frame.

使用加固角可以显著提高框架的稳定性。

作文

In the field of engineering and architecture, the term reinforcing angle refers to a specific type of structural component that is used to enhance the strength and stability of various constructions. These angles are often made from materials such as steel or aluminum and are strategically placed in structures to provide additional support where it is most needed. The use of reinforcing angle (加固角) is critical in ensuring that buildings, bridges, and other infrastructures can withstand various forces, including gravity, wind, and seismic activity. One of the primary functions of a reinforcing angle (加固角) is to distribute loads evenly across a structure. When weight is applied to a beam or a column, it can create stress points that may lead to failure if not properly managed. By incorporating reinforcing angles (加固角), engineers can mitigate these stress concentrations, allowing for a more even distribution of forces throughout the material. This not only increases the overall durability of the structure but also extends its lifespan. Moreover, the design flexibility offered by reinforcing angles (加固角) allows architects to create innovative shapes and forms without compromising on safety. For instance, in modern architecture, where aesthetic appeal is often a priority, reinforcing angles (加固角) can be used to support cantilevered structures or large open spaces that require additional reinforcement. This ability to combine functionality with design is what makes reinforcing angles (加固角) an essential element in contemporary construction practices. The installation of reinforcing angles (加固角) also plays a significant role in the construction process. Proper placement and securing of these angles can prevent potential structural failures during the building's life cycle. For example, in high-rise buildings, reinforcing angles (加固角) are often used at the joints where different elements meet, providing extra strength to these critical areas. Additionally, they can be utilized in retrofitting existing structures to enhance their load-bearing capacity and resilience against natural disasters. Another important aspect of reinforcing angles (加固角) is their contribution to safety regulations and building codes. Engineers must adhere to strict guidelines when designing structures, and the inclusion of reinforcing angles (加固角) can help meet these requirements. By ensuring that buildings are adequately reinforced, engineers can reduce the risk of catastrophic failures, thereby protecting both occupants and investments. In conclusion, the role of reinforcing angles (加固角) in engineering and architecture cannot be overstated. They provide essential support that enhances the safety, stability, and longevity of structures. As technology and materials continue to advance, the application of reinforcing angles (加固角) will likely evolve, leading to even more innovative and resilient designs in the future. Therefore, understanding the significance of reinforcing angles (加固角) is crucial for anyone involved in the fields of construction, architecture, or engineering.

在工程和建筑领域，术语reinforcing angle指的是一种特定类型的结构组件，用于增强各种建筑物的强度和稳定性。这些角通常由钢或铝等材料制成，并且被战略性地放置在结构中，以提供额外的支持。使用reinforcing angle（加固角）对于确保建筑物、桥梁和其他基础设施能够承受包括重力、风和地震活动在内的各种力量至关重要。reinforcing angle（加固角）的主要功能之一是将负载均匀分配到结构上。当重量施加到梁或柱上时，可能会产生应力点，如果未能妥善管理，这些应力点可能导致结构失效。通过结合reinforcing angles（加固角），工程师可以减轻这些应力集中，从而实现材料内部力量的更均匀分布。这不仅增加了结构的整体耐久性，还延长了其使用寿命。此外，reinforcing angles（加固角）所提供的设计灵活性使建筑师能够创造出创新的形状和形式，而不会妥协安全性。例如，在现代建筑中，当美学吸引力往往是优先考虑时，reinforcing angles（加固角）可以用于支撑悬臂结构或需要额外加固的大型开放空间。这种将功能与设计相结合的能力，使得reinforcing angles（加固角）成为当代建筑实践中不可或缺的元素。reinforcing angles（加固角）的安装也在施工过程中发挥着重要作用。适当放置和固定这些角可以防止建筑物在其生命周期内潜在的结构失效。例如，在高层建筑中，reinforcing angles（加固角）通常用于不同元素相遇的接缝处，为这些关键区域提供额外的强度。此外，它们还可以用于对现有结构进行加固，以增强其承载能力和抵御自然灾害的韧性。reinforcing angles（加固角）的另一个重要方面是它们对安全法规和建筑规范的贡献。工程师在设计结构时必须遵循严格的指导方针，而加入reinforcing angles（加固角）可以帮助满足这些要求。通过确保建筑物得到充分加固，工程师可以降低灾难性失败的风险，从而保护居住者和投资。总之，reinforcing angles（加固角）在工程和建筑中的作用不可低估。它们提供了增强结构安全性、稳定性和耐久性的基本支持。随着技术和材料的不断进步，reinforcing angles（加固角）的应用可能会不断演变，导致未来更具创新性和韧性的设计。因此，理解reinforcing angles（加固角）的重要性，对于任何参与建筑、建筑或工程领域的人来说都是至关重要的。