compensating bar

简明释义

校正铁

英英释义

例句

1.The architect specified a compensating bar in the design to account for thermal expansion.

建筑师在设计中指定了一根补偿杆以考虑热膨胀。

2.During the installation of the fence, a compensating bar was necessary to maintain alignment over uneven terrain.

在围栏安装过程中，需要一根补偿杆以保持在不平坦地形上的对齐。

3.In the construction of the building, a compensating bar was used to adjust for the uneven settling of the foundation.

在建筑施工中，使用了一根补偿杆来调整基础的不均匀沉降。

4.The compensating bar helps to distribute loads evenly across the frame of the machine.

这根补偿杆有助于均匀分配机器框架上的负载。

5.The engineer installed a compensating bar to ensure the structural integrity of the bridge during temperature fluctuations.

工程师安装了一根补偿杆以确保桥梁在温度波动期间的结构完整性。

作文

In the field of engineering and construction, the term compensating bar refers to a structural element that is used to balance or compensate for forces acting on a system. These bars are particularly important in bridge design and other large structures where thermal expansion, contraction, and movement can lead to significant stress on the materials involved. By incorporating a compensating bar into the design, engineers can ensure that the structure remains stable and safe over time.One of the primary functions of a compensating bar is to absorb the movement caused by temperature changes. Materials expand when heated and contract when cooled; this natural phenomenon can create tension and compression in structural components. Without a compensating bar, these stresses could lead to cracks, warping, or even catastrophic failure of the structure. Thus, the inclusion of a compensating bar acts as a safeguard against such issues, allowing for controlled movement while maintaining the integrity of the overall design.Additionally, compensating bars play a crucial role in the alignment of various structural elements. In cases where different materials are used, such as steel and concrete, their differing rates of expansion can lead to misalignment. A compensating bar helps to mitigate this problem by providing a flexible connection that can accommodate the varying movements of these materials. This flexibility is essential in maintaining the overall performance and longevity of the structure.The design of a compensating bar must take into account several factors, including the expected range of motion, the materials used, and the specific environmental conditions the structure will face. Engineers often use computer simulations to model how a compensating bar will behave under different scenarios. This allows them to optimize the design for maximum efficiency and safety.Furthermore, the installation of a compensating bar requires careful planning and execution. It must be positioned correctly to ensure that it effectively absorbs the necessary movements without introducing additional stresses into the system. This process often involves collaboration between various engineering disciplines, including structural, mechanical, and civil engineering.In summary, the compensating bar is an essential component in modern engineering that addresses the challenges posed by thermal expansion and material compatibility. Its ability to provide stability and flexibility makes it invaluable in the construction of bridges, buildings, and other large structures. As technology advances, the design and implementation of compensating bars will continue to evolve, ensuring that our infrastructure remains safe and resilient in the face of changing environmental conditions and material properties. Understanding the role of a compensating bar is crucial for anyone involved in the fields of construction and engineering, as it highlights the importance of thoughtful design in creating durable and effective structures.

在工程和建筑领域，术语补偿杆指的是用于平衡或补偿作用于系统的力的结构元素。这些杆在桥梁设计和其他大型结构中尤为重要，因为温度变化、收缩和运动可能会对所涉及的材料造成显著的压力。通过将补偿杆纳入设计中，工程师可以确保结构在时间的推移中保持稳定和安全。

补偿杆的主要功能之一是吸收由温度变化引起的运动。材料在加热时膨胀，冷却时收缩；这种自然现象会在结构组件中产生张力和压缩。如果没有补偿杆，这些压力可能导致裂缝、变形，甚至结构的灾难性失败。因此，加入补偿杆作为防护措施，可以在保持整体设计完整性的同时，允许受控运动。

此外，补偿杆在各种结构元素的对齐中也发挥着关键作用。在使用不同材料的情况下，例如钢和混凝土，它们的膨胀速率不同可能导致错位。补偿杆通过提供一个灵活的连接来缓解这个问题，该连接可以适应这些材料的不同运动。这种灵活性对于维持结构的整体性能和耐久性至关重要。

设计补偿杆时必须考虑多个因素，包括预期的运动范围、使用的材料和结构将面临的特定环境条件。工程师通常使用计算机模拟来建模补偿杆在不同情况下的行为。这使他们能够优化设计以实现最大效率和安全性。

此外，安装补偿杆需要仔细的规划和执行。它必须正确定位，以确保有效吸收必要的运动，而不引入额外的压力到系统中。这个过程通常涉及多个工程学科之间的合作，包括结构工程、机械工程和土木工程。

总之，补偿杆是现代工程中一个不可或缺的组成部分，解决了热膨胀和材料兼容性带来的挑战。它提供的稳定性和灵活性使其在桥梁、建筑物和其他大型结构的建设中不可或缺。随着技术的进步，补偿杆的设计和实施将继续发展，确保我们的基础设施在面对不断变化的环境条件和材料特性时保持安全和韧性。理解补偿杆的作用对于任何参与建筑和工程领域的人来说都是至关重要的，因为它突显了在创造耐用和有效结构方面深思熟虑设计的重要性。