Simulation and Identification in Thermography

Thermography is used for nondestructive testing of different materials in order to detect imperfections of the material. The numerical simulation of the temperature evolution in pulse thermography is difficult due to the important boundary layers. We develop analytically supported adaptive numerical simulation methods for the reliable simulation of thermography of concrete, and model both heating procedure and initial temperature profile in order to reproduce measurements.
Additionally, we develop fast, heuristic reconstruction algorithm providing quantitative data about defect location and shape.

Group

Computational Anatomy and Physiology

Heads

Weiser, Dr. Martin

Maierhofer, Dr. Christiane

Partners

BAM

Related projects

Active Thermography for Fiber-Reinforced Composites

Funding

BAM

Publications

2013

Fast Defect Shape Reconstruction Based on the Travel Time in Pulse Thermography Nondestructive Testing of Materials and Structures, Vol.6, pp. 83-89, 2013 Sebastian Götschel, Martin Weiser, Christiane Maierhofer, Regina Richter, Mathias Röllig BibTeX

2012

Data Enhancement for Active Thermography E-book Proceedings, 11th International Conference on Quantitative Infrared Thermography, Naples, Gennaro Cardone (Ed.), 2012 (preprint available as ZIB-Report 12-20) Sebastian Götschel, Martin Weiser, Christiane Maierhofer, Regina Richter PDF
PDF (ZIB-Report)
BibTeX

2010

Development and test of a numerical model for pulse thermography in civil engineering Heat and Mass Transfer, 46(11-12), pp. 1419-1428, 2010 (preprint available as ZIB-Report 08-45) Martin Weiser, Mathias Röllig, Ralf Arndt, Bodo Erdmann PDF (ZIB-Report)
BibTeX