航空学报2026,Vol.47Issue(7):154-174,21.DOI:10.7527/S1000-6893.2025.32500
基于诊断与预测的金属搭接结构动态风险评估
Dynamic risk assessment of metallic lap-joint structures based on diagnosis and prognosis
摘要
Abstract
Hidden cracks in metallic lap-joint structures are difficult to detect,and conventional risk assessment meth-ods rely heavily on offline nondestructive inspections.To address these challenges,an integrated diagnosis and prog-nosis dynamic risk assessment method within a digital twin framework has been proposed.The method employs an experimental strain driven physics and data fusion crack propagation model and implements a dynamic Bayesian net-work to close the loop between virtual and physical models.Crack initiation is detected using the Cumulative Sum Control Chart(CUSUM)algorithm;crack location is determined by a k-Nearest Neighbors(KNN)classifier;crack size is estimated through a Multi-Output Gaussian Process Regression(MOGPR)model;subsequently,a Dynamic Bayesian Network(DBN)is employed to dynamically update the crack propagation parameters C and m in real time.Based on these updated parameters,the Single Flight Probability of Failure(SFPOF)is computed through Monte Carlo simulation.Experimental results demonstrate that the combined CUSUM and SFPOF criterion provides timely crack warnings and reduces dependence on high-precision Equivalent Initial Flaw Size(EIFS).As monitoring data ac-cumulate,the standard deviations of C and m decrease,lowering uncertainty in life predictions.The proposed method enables continuous online quantitative risk evaluation of metallic lap-joint structures,offering reliable support for condition-based maintenance decisions.关键词
风险评估/结构故障诊断与健康管理/疲劳损伤诊断与预测/单次飞行失效概率/裂纹扩展Key words
risk assessment/structural fault diagnosis and health management/fatigue damage diagnosis and prognosis/single flight probability of failure/crack propagation分类
航空航天引用本文复制引用
韩亮,贺小帆..基于诊断与预测的金属搭接结构动态风险评估[J].航空学报,2026,47(7):154-174,21.基金项目
国家自然科学基金(12472341) National Natural Science Foundation of China(12472341) (12472341)
