Load reconstruction on a missile structure using the Pseudo-Inverse methods
Author
Vishwakarma, R.
Turner, D.
Lewis, A.
Chen, Y.
Houghton, P.
Xu, Y.
Attention
2299/7486
Abstract
A missile during air carriage is subjected to high vibratory forces. These forces consequently impose high levels of stress on the attachment points to the aircraft A repetitive application of stress causes fatigue. However, since the vibratory forces cannot be measured directly at the interface, an inverse method utilizing missile accelerometer data has been used to determine the forces. This paper presents two techniques of reconstructing loads. Both techniques utilize a frequency domain method and the Pseudo-Inverse method, although the second procedure incorporating a normal modes analysis is perhaps better suited for embedding within a Health and Usage Monitoring System (HUMS). Both methodologies enable discrete dynamic loads, which are applied to a finite element model in the time domain, to be successfully reconstructed. Consequently, by identifying forces on a missile structure successfully, the presented methodologies enable a better structural integrity assessment to be undertaken.