deflection meter

简明释义

挠度计

英英释义

例句

1.Before construction, it is essential to calibrate the deflection meter 偏差计 to ensure accurate readings.

在施工之前，校准deflection meter 偏差计以确保读数准确是至关重要的。

2.The deflection meter 偏差计 indicated that the structure was within safe limits during the stress test.

在压力测试期间，deflection meter 偏差计显示结构在安全范围内。

3.The engineer used a deflection meter 偏差计 to measure the bending of the bridge under load.

工程师使用了一个deflection meter 偏差计来测量桥梁在负载下的弯曲。

4.We installed a deflection meter 偏差计 on the cantilever beam to monitor its performance over time.

我们在悬臂梁上安装了一个deflection meter 偏差计以监测其性能。

5.The construction team relied on the deflection meter 偏差计 to ensure the integrity of the arch during assembly.

施工团队依赖于deflection meter 偏差计以确保拱形结构在组装过程中的完整性。

作文

In the field of engineering and construction, precise measurements are crucial for ensuring the integrity and safety of structures. One essential tool used in this process is the deflection meter, a device designed to measure the amount of deflection or displacement that occurs in a structural element under load. Understanding how to use a deflection meter and interpreting its readings can significantly enhance the quality of engineering projects.A deflection meter operates on the principle of measuring the vertical or horizontal displacement of a beam, column, or other structural members when subjected to forces. This measurement is vital because excessive deflection can lead to structural failure, compromised safety, and costly repairs. Engineers use deflection meters to monitor the behavior of structures over time, especially during critical phases such as construction, loading tests, or after seismic events.To effectively utilize a deflection meter, engineers typically begin by installing the device at key points on the structure. The placement is strategic, often at mid-span locations or areas where maximum deflection is expected. Once installed, the deflection meter records data that indicates how much a structure bends or shifts under various loads. This data can be analyzed to determine if the structure meets design specifications and safety standards.The readings obtained from a deflection meter can provide invaluable insights into the performance of materials used in construction. For instance, if a beam is made of a particular material, and the deflection meter shows significant deflection beyond acceptable limits, engineers may need to reassess the material's suitability or the design itself. Continuous monitoring with a deflection meter allows for proactive maintenance and timely interventions, which can prevent minor issues from escalating into major problems.Moreover, the use of a deflection meter is not limited to new constructions. It is also employed in the evaluation of existing structures, particularly those that have been in service for many years. As buildings age, they may experience wear and tear, leading to unexpected deflections. By regularly checking these deflections with a deflection meter, engineers can assess the health of the structure and implement necessary repairs before serious damage occurs.In conclusion, the deflection meter is an indispensable tool in the realm of engineering and construction. Its ability to accurately measure deflection ensures that structures remain safe, functional, and reliable throughout their lifespan. As technology advances, the precision and efficiency of deflection meters continue to improve, making them even more valuable in the quest for safer and more resilient infrastructure. Engineers who master the use of a deflection meter will undoubtedly contribute to the overall success and safety of their projects, safeguarding both lives and investments.

在工程和建筑领域，精确的测量对于确保结构的完整性和安全性至关重要。一个在这个过程中不可或缺的工具是挠度计，这是一种设计用于测量结构元素在载荷下发生的挠曲或位移的设备。理解如何使用挠度计并解读其读数可以显著提高工程项目的质量。挠度计的工作原理是测量梁、柱或其他结构构件在施加力时的垂直或水平位移。这一测量至关重要，因为过度的挠曲可能导致结构失效、安全性受到威胁以及昂贵的修复费用。工程师使用挠度计来监测结构在时间上的行为，特别是在关键阶段如施工、加载测试或地震事件后。为了有效利用挠度计，工程师通常首先在结构的关键点安装该设备。其位置选择具有策略性，通常在中跨位置或最大挠度预计出现的区域。一旦安装，挠度计就会记录数据，指示结构在各种载荷下的弯曲或移动程度。这些数据可以被分析，以确定结构是否符合设计规格和安全标准。从挠度计获得的读数可以提供关于建筑材料性能的宝贵见解。例如，如果一根梁是由特定材料制成的，而挠度计显示的挠度超过可接受的限制，工程师可能需要重新评估该材料的适用性或设计本身。通过使用挠度计进行持续监测，可以实现主动维护和及时干预，从而防止小问题升级为重大问题。此外，挠度计的使用不仅限于新建建筑。它也被用于评估现有结构，特别是那些已经投入使用多年建筑。随着建筑物的老化，它们可能会经历磨损，导致意想不到的挠度。通过定期检查这些挠度，工程师可以评估结构的健康状况，并在严重损坏发生之前实施必要的修复。总之，挠度计是工程和建筑领域中不可或缺的工具。它准确测量挠度的能力确保结构在其生命周期内保持安全、功能齐全和可靠。随着技术的发展，挠度计的精度和效率不断提高，使其在追求更安全、更具韧性的基础设施方面变得更加宝贵。掌握挠度计使用的工程师无疑将为他们的项目的整体成功和安全做出贡献，保护生命和投资。