Acceleration-Based Remaining Life Prognostics for Terrain-Loaded Components on an Army Ground Vehicle System

Q4 Engineering Journal of the IEST Pub Date : 2009-10-01 DOI:10.17764/JIET.52.2.G40W588835068522
Richard Heine, D. Barker
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引用次数: 3

Abstract

Use of a health and usage monitoring system (HUMS) is one method the Department of Defense is investigating to meet conflicting cost and performance goals for Army wheeled vehicles. One area where a HUMS would be of great benefit is monitoring critical components vulnerable to terrain-induced fatigue. While strain is typically the desired input to a fatigue model, acceleration sensors are less susceptible to damage from the military ground vehicle environment and provide more reliable data over long periods of usage. The feasibility of using vibratory inputs from an accelerometer to make component fatigue predictions for a military wheeled vehicle system is explored in this study, and the use of limited subsets of data for algorithm training are evaluated. An example component is used to demonstrate that the proposed HUMS algorithms are appropriate and provide suitably accurate fatigue predictions.
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陆军地面车辆系统地形载荷部件基于加速度的剩余寿命预测
使用健康和使用监测系统(HUMS)是国防部正在研究的一种方法,以满足陆军轮式车辆成本和性能目标的冲突。HUMS将大有裨益的一个领域是监测易受地形疲劳影响的关键部件。虽然应变通常是疲劳模型所需的输入,但加速度传感器不易受到军用地面车辆环境的损坏,并且在长时间使用期间提供更可靠的数据。本研究探讨了利用加速度计的振动输入对军用轮式车辆系统进行部件疲劳预测的可行性,并评估了使用有限子集的数据进行算法训练的可行性。通过实例验证了所提出的HUMS算法的有效性,并给出了适当的疲劳预测精度。
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来源期刊
Journal of the IEST
Journal of the IEST Engineering-Safety, Risk, Reliability and Quality
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0.40
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期刊介绍: The Journal of the IEST is an official publication of the Institute of Environmental Sciences and Technology and is of archival quality and noncommercial in nature. It was established to advance knowledge through technical articles selected by peer review, and has been published for over 50 years as a benefit to IEST members and the technical community at large as as a permanent record of progress in the science and technology of the environmental sciences
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