Comparison of Full Field Strain Distributions to Predicted Strain Distributions from Limited Sets of Measured Data for SHM Applications

Author:

Avitabile Peter1,Harvey Eric1,Ruddock Justin1

Affiliation:

1. University of Massachusetts Lowell

Abstract

Measured data from operating systems are often acquired to predict structural health of a system. With only a few measurement sensors, very limited understanding of the system can be obtained. Utilizing some recent novel expansion results, full field information can be obtained to identify a more complete strain description for the system. Using these results in conjunction with an analytical prediction of the expected strains, comparisons and differences can be identified using time response data. The expected full field stress-strain from the analytical model is compared to the predicted full field dynamic stress strain from limited sets of measured locations due to either operating or imposed loading on the structure. Differences in strain distributions at many time increments can provide indications of regions of possible damage in the structure. The work presented in this paper identifies the methodology as well as some results to illustrate the usefulness of the approach.

Publisher

Trans Tech Publications, Ltd.

Subject

Mechanical Engineering,Mechanics of Materials,General Materials Science

Reference11 articles.

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2. H. Sohn. C.R. Farrar, F. M. Hemez, D. D. Shunk, S. W. Stinemates, B. R. Nadler and J. J. Czarnecki, A Review of Structural Health Monitoring Literature form 1996-2001, Los Alamos National Laboratory report LA-13976-MS (2004).

3. Chipman,C., Expansion of Real Time Operating Data", Master, s Thesis, University of Massachusetts Lowell, May (2009).

4. Pingle,P., Prediction of Full-Field Dynamic Stress-Strain from Limited Sets of Measured Displacement Data, Doctoral Thesis, University of Massachusetts Lowell, August (2010).

5. Guyan, R.J., Reduction of Stiffness and Mass Matrices, AIAA Journal, Vol. 3, No 2, (1965).

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