roll-sensing accelerograph

简明释义

横摇加速度自记仪

英英释义

例句

1.Data from the roll-sensing accelerograph indicated that the aircraft experienced unexpected turbulence.

来自滚动传感加速度计的数据表明飞机经历了意外的颠簸。

2.The roll-sensing accelerograph helped identify the cause of the ship's capsizing during the storm.

这台滚动传感加速度计帮助确定了船只在风暴中倾覆的原因。

3.Researchers used a roll-sensing accelerograph to analyze the effects of roll on the performance of racing cars.

研究人员使用滚动传感加速度计分析滚动对赛车性能的影响。

4.In the lab, the team calibrated the roll-sensing accelerograph to ensure accurate readings.

在实验室，团队对滚动传感加速度计进行了校准，以确保读数准确。

5.The engineer installed a roll-sensing accelerograph to monitor the vehicle's stability during high-speed maneuvers.

工程师安装了一个滚动传感加速度计来监测车辆在高速机动时的稳定性。

作文

In the field of engineering and seismology, the need for accurate measurements during seismic events is paramount. One of the most innovative tools developed for this purpose is the roll-sensing accelerograph, which plays a crucial role in monitoring ground motion and assessing structural integrity during earthquakes. This device is designed to measure not only the acceleration of the ground but also its rotational movements, providing a comprehensive understanding of seismic activity. The incorporation of roll-sensing technology allows engineers to gather more detailed data about how buildings and infrastructure respond to seismic forces.The roll-sensing accelerograph works by utilizing advanced sensors that can detect changes in orientation and movement. Traditional accelerographs primarily focus on linear acceleration, which limits their ability to capture the complexities of seismic waves. However, with the addition of roll-sensing capabilities, these instruments can identify the rolling motion of the ground, which is essential for evaluating the performance of structures during an earthquake.One of the key advantages of the roll-sensing accelerograph is its ability to provide real-time data. This information is invaluable for emergency response teams and civil engineers who need to make quick decisions following a seismic event. By analyzing the data collected from these devices, engineers can assess whether buildings are safe for re-entry or if they require immediate evacuation. Moreover, the insights gained from the readings can inform future construction practices, leading to more resilient structures that can better withstand seismic forces.Furthermore, the integration of roll-sensing accelerographs into seismic monitoring networks enhances our understanding of earthquake dynamics. Researchers can analyze patterns in the data to improve predictive models, helping to forecast potential aftershocks or other seismic events. This knowledge not only aids in disaster preparedness but also contributes to the development of building codes and standards aimed at minimizing damage during earthquakes.In conclusion, the roll-sensing accelerograph represents a significant advancement in seismic instrumentation. By capturing both linear and rotational movements, it provides a more complete picture of ground motion during earthquakes. This technology not only supports the safety and resilience of our infrastructure but also enhances our understanding of seismic phenomena. As we continue to advance in engineering and technology, tools like the roll-sensing accelerograph will play an increasingly vital role in safeguarding lives and property in earthquake-prone regions.

在工程和地震学领域，准确测量地震事件期间的需求至关重要。为此开发的最具创新性的工具之一是滚动传感加速度计，它在监测地面运动和评估地震期间结构完整性方面发挥着关键作用。该设备旨在测量不仅是地面的加速度，还有其旋转运动，从而提供对地震活动的全面理解。滚动传感技术的结合使工程师能够收集有关建筑物和基础设施如何响应地震力的更详细数据。滚动传感加速度计通过利用先进的传感器工作，这些传感器可以检测方向和运动的变化。传统的加速度计主要关注线性加速度，这限制了它们捕捉地震波复杂性的能力。然而，随着滚动传感功能的增加，这些仪器能够识别地面的滚动运动，这对于评估建筑物在地震期间的性能至关重要。滚动传感加速度计的一个主要优势是它能够提供实时数据。这些信息对于紧急响应团队和土木工程师来说是无价的，他们需要在地震事件后迅速做出决策。通过分析从这些设备收集的数据，工程师可以评估建筑物是否安全可重新进入，或者是否需要立即疏散。此外，从读取中获得的见解可以为未来的建筑实践提供信息，从而导致更具韧性的结构，能够更好地承受地震力量。此外，将滚动传感加速度计整合到地震监测网络中增强了我们对地震动态的理解。研究人员可以分析数据中的模式，以改善预测模型，帮助预测潜在的余震或其他地震事件。这一知识不仅有助于灾害准备，还促进了建筑规范和标准的发展，旨在减少地震期间的损害。总之，滚动传感加速度计代表了地震仪器的重要进步。通过捕捉线性和旋转运动，它提供了地震期间地面运动的更完整图景。这项技术不仅支持我们基础设施的安全和韧性，而且增强了我们对地震现象的理解。随着我们在工程和技术方面的不断进步，像滚动传感加速度计这样的工具将在保护地震多发地区的生命和财产方面发挥越来越重要的作用。