A Method for Acoustic Emission Source Identification based on Optimisation
When a metal or composite structure begins to fail,for example due to high cycle fatigue,acoustic emissions caused by the propagation of cracks give rise to bursts of ultrasonic waves travelling through the structure.The health of a structure can be monitored by means of sensors which detect these waves.Acoustic emissions are often generated in experiments by breaking a pencil lead against the surface of the structure in a standardised way but the forces that this imparts are not well understood at present.A Local Interaction Simulation Approach (LISA) algorithm has been implemented to simulate the propagation of ultrasonic waves.This code has been validated against experiments in previous work and has been shown to accurately reproduce the propagation of Lamb waves (including reflections and dispersion etc.) within thin-plate like structures.This paper deals with the use of the LISA code to characterise the forces associated with standard pencil lead breaks.The displacement due to waves emanating from a break is measured and a Differential Evolution (DE) optimisation scheme is used to find the optimal profile of forcing to match the simulation with experiment.
acoustic emission source identification local interaction simulation approach (LISA) differential evolution
Andrew Spencer Keith Worden Gareth Pierce
Dynamics Research Group,Department of Mechanical Engineering,University of Sheffield,Mappin Street,S Centre for Ultrasonic Engineering,Department of Electronic & Electrical Engineering,University of St
国际会议
The 8th International Conference on Damage Assessment of Structures(DAMAS 2009)(第八届结构损伤评价国际学术会议)
北京
英文
793-801
2009-08-03(万方平台首次上网日期,不代表论文的发表时间)