bearing bar

简明释义

支撑钢筋

英英释义

例句

1.During the inspection, the engineer noted that the bearing bar was showing signs of wear.

在检查中，工程师注意到承重梁出现了磨损迹象。

2.In this design, the bearing bar plays a crucial role in distributing loads evenly.

在这个设计中，承重梁在均匀分配负载方面起着至关重要的作用。

3.We need to ensure that the bearing bar is properly anchored to prevent movement.

我们需要确保承重梁正确锚固，以防止移动。

4.The construction team installed the bearing bar to support the weight of the roof.

施工队安装了承重梁以支撑屋顶的重量。

5.The architect specified a steel bearing bar for increased durability.

建筑师指定使用钢制承重梁以增加耐用性。

作文

In the world of construction and engineering, understanding the components that contribute to the stability and strength of structures is crucial. One such component is the bearing bar, which plays a vital role in supporting loads and ensuring the integrity of various constructions. A bearing bar (承载杆) is typically used in frameworks to distribute weight evenly across different sections of a structure, preventing any single point from bearing too much stress. This concept is particularly important in large buildings, bridges, and other infrastructures where safety and durability are paramount.When designing a building, engineers must consider the materials used for the bearing bar (承载杆). Common materials include steel, aluminum, and reinforced concrete, each offering different benefits in terms of strength, flexibility, and weight. For instance, steel bearing bars (承载杆) are favored for their high tensile strength, making them ideal for skyscrapers and heavy-duty applications. On the other hand, aluminum bearing bars (承载杆) might be selected for lighter structures due to their reduced weight and resistance to corrosion.The placement of bearing bars (承载杆) within a structure is also critical. Engineers must calculate the optimal positioning to ensure that the weight is distributed effectively. This involves complex calculations and simulations, where factors such as load-bearing capacity, environmental conditions, and potential stress points are taken into account. Improperly placed bearing bars (承载杆) can lead to structural failure, which can have catastrophic consequences.In addition to their physical properties, bearing bars (承载杆) must also comply with local building codes and regulations. These guidelines are established to ensure that all structures meet safety standards. As such, engineers and architects must stay updated on any changes to these regulations to ensure their designs are compliant.Moreover, the maintenance of bearing bars (承载杆) is essential for the longevity of a structure. Over time, factors such as weather conditions, wear and tear, and material fatigue can affect the performance of bearing bars (承载杆). Regular inspections and maintenance practices help identify any potential issues before they escalate, ensuring that the structure remains safe for use.In conclusion, the role of bearing bars (承载杆) in construction cannot be overstated. They are fundamental to the safety and stability of various structures, from residential buildings to massive bridges. Understanding their function, material properties, and maintenance requirements is essential for anyone involved in engineering or architecture. As technology advances, new materials and methods for utilizing bearing bars (承载杆) will continue to evolve, further enhancing the safety and efficiency of our built environment.

在建筑和工程的世界中，理解构成结构稳定性和强度的组件至关重要。其中一个重要的组件是承载杆，它在支撑负荷和确保各种建筑物的完整性方面发挥着至关重要的作用。承载杆通常用于框架中，以均匀分配结构的重量，防止任何单个点承受过多的压力。这个概念在大型建筑、桥梁和其他基础设施中尤为重要，因为安全性和耐久性是重中之重。在设计建筑时，工程师必须考虑用于承载杆的材料。常见的材料包括钢、铝和增强混凝土，每种材料在强度、灵活性和重量等方面都提供不同的好处。例如，钢制承载杆因其高抗拉强度而受到青睐，非常适合摩天大楼和重型应用。另一方面，铝制承载杆可能因其较轻的重量和抗腐蚀性而被选用于较轻的结构。承载杆在结构中的放置也至关重要。工程师必须计算最佳位置，以确保有效分配重量。这涉及复杂的计算和模拟，其中考虑了负载承载能力、环境条件和潜在的应力点等因素。不当放置的承载杆可能导致结构失效，这可能会造成灾难性的后果。除了物理属性外，承载杆还必须符合当地建筑法规和标准。这些指南的制定旨在确保所有结构达到安全标准。因此，工程师和建筑师必须随时了解这些法规的任何变化，以确保他们的设计符合规定。此外，承载杆的维护对结构的长期使用至关重要。随着时间的推移，天气条件、磨损和材料疲劳等因素可能会影响承载杆的性能。定期检查和维护措施有助于在问题升级之前识别潜在问题，确保结构保持安全可用。总之，承载杆在建筑中的作用不可低估。它们是各种结构（从住宅建筑到大型桥梁）安全性和稳定性的基础。理解它们的功能、材料特性和维护要求对于任何参与工程或建筑的人来说都是至关重要的。随着技术的进步，利用承载杆的新材料和方法将不断发展，进一步增强我们建筑环境的安全性和效率。