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  1. Poudel, A., Kanneganti, R., Li, S., Gupta, L., and Chu, T. P., "Classification of Ultrasonic Echo Signals to Detect Embedded Defects in CFRP Panels," International Journal of Microstructure and Materials Properties. (accepted for publication)
  2. Poudel, A., Shrestha, S., Sandhu, J.S., Chu, T.P., and Pergantis, C., 2015, "Comparison and Analysis of Acoustography with Other NDE Techniques for Foreign Object Inclusion Detection in Graphite Epoxy Composites," Composites: Part B. DOI: 10.1016/j.compositesb.2015.03.048
  3. Poudel, A., Mitchell, K., Chu, T., Neidigk, S., and Jacques, C., 2015 "Non-Destructive Evaluation of Composite Repairs by Using Infrared Thermography," Journal of Composite Materials. DOI: 10.1177/0021998315574755
  4. Li, S., Poudel, A., and Chu, T. P., "Ultrasonic Defect Mapping Using Signal Correlation for NDE," RNDE, Vol. 26, Issue 3, 2015, DOI: 10.1080/09349847.2014.96790
  5. Poudel, A., Strycek, J., and Chu, T.P., “Air-Coupled Ultrasonic Testing of Carbon/Carbon Composite Aircraft Brake Disks,”  Materials Evaluation, Vol. 71, No. 8, pp.987-994, 2013.
  6. Li, S., Poudel, A., and Chu, T.P., “Fuzzy Logic Based Delamination Detection in CFRP Panels,”  Informatica, Vol. 37, pp. 356-366, 2013.
  7. Li, S., Chu, T.P., “Super-Resolution Image reconstruction for Ultrasonic NDE,” IEEE Ultrasonics, Ferroelectrics, and Frequency Control, Vol. 60, No. 12, pp. 2775-2785, 2013.
  8. Poudel, A. and Chu, T.P., “Intelligent NDE Expert System for Aircraft Carbon/Carbon Composite Brakes Using Infrared Thermography and Air-Coupled Ultrasound,” Materials Evaluation, Vol. 70  No. 10, pp.1219-1229, October 2012.
  9. Chu, T.P., Don, J., Pan, Y.C., and Poudel, A., “Defect Characterization in Commercial Carbon-Carbon Composites,” World Journal of Engineering, Vol. 9  No. 6, pp., September 2012.
  10. C.B. Liu, M.J. Huang, Y.C. Pan, D. Shedlock, and T.P. Chu, “Detection of Discontinuities in Carbon-Carbon Composites using X-ray Compton Backscatter Radiography: Radiography by Selective Detection,” Materials Evaluation, Vol. 70, No. 3, pp. 367-377, March 2012.
  11. J. Don and T.P. Chu, “CVI Densification of Carbon-Carbon Composites,” accepted for publication, World Journal of Engineering.
  12. J. Don and T.P. Chu, “Processing of Carbon-Carbon Composites for Aircraft Brake Applications,” World Journal of Engineering, pp. 283-284, September 2011.
  13. T.C. Chu, J. Don, Y.C. Pan, and A. Poudel, “Non-Destructive Evaluation of Carbon-Carbon Composites Using Infrared Thermography,” World Journal of Engineering, September 2011.
  14. Y.P. Pan, T.C.  Chu, and P. Filip, “Intelligent Nondestructive Testing Expert System for Carbon-Carbon Composites Using Infrared Thermography,” Materials Evaluation, Vol. 69, No. 7, pp. 834-842, July 2011.
  15. Y.C. Pan, R.A. Miller, T.C.  Chu, and P. Filip, “Thermal Diffusivity Mapping of Carbon/Carbon Composites,” Materials Evaluation, Infrared Testing: Thermal Diffusivity Mapping - Spotlight, Vol. 67, No. 5, pp. 540-546, May 2009.
  16. B. Regez, Y. Zhang, A. Mahajan, J. Don, and T.C. Chu, “In-Plane Bulk Material Displacement and Deformation Measurements using Digital Image Correlation of Ultrasonic C-scan Images,” Structural Engineering and Mechanics, Vol. 29, No. 1, pp.113-116, May 2008.
  17. C. Hahn, A. Mahajan, T.C. Chu, and M. Schoen, “A Lumped Parameter Model to Investigate the Effect of Plantar Pressure on Arterial Blood Flow in the Diabetic Foot,” Journal of Engineering in Medicine, Vol. 221, No. H6, pp. 677-686, August 2007.
  18. Y. W. Kwon, D. H. Kim, and T.C. Chu, “Multi-Scale Modeling of Refractory Woven Fabric Composites,” Journal of Material Science, Volume 41, Number 20, October 2006 , pp. 6647-6654(8).
  19. M. Paliwal, A. Mahajan, J. Don, T.C. Chu, and P. Filip, “Noise and Vibration Analysis in a Disc-Brake System using a Stick-Slip Friction Model involving Coupling Stiffness,” Journal of Sound and Vibration, Volume 282, Issues 3-5, pp 1273-1284, 22 April 2005.
  20. T.C. Chu, A. Mahajan, A. DiGregorio, and S. Russell, “Determination of Optimal Experimental Parameters for Transient Thermography Imaging using Finite Element Models,” The Imaging Science Journal, Vol. 53, pp. 20-26, 2005.
  21. M. Paliwal, A. Mahajan, J. Don, T.C. Chu, and P. Filip,  “Investigation of High Frequency Squeal in a Disc Brake System Using a Friction Layer Based Coupling Stiffness,” Journal of Mechanical Engineering Science, Vol. 219,  pp 513-522, 2005.
  22. A. Pilch, A. Mahajan, and T.C. Chu, “Measurement of Whole-Field Displacements and Strain Using a Genetic Algorithm Based Image Correlation Method,” Journal of Dynamic Systems, Measurements, and Control, Transactions of ASME, Vol. 126, Sept. 2004.
  23. N. Unnikrishnan, A.  Mahajan, and T.C. Chu, “Intelligent System Modelling of a 3-D Ultrasonic Positioning System using Neural Networks and Genetic Algorithms,” Journal of Systems and Control Engineering, Vol. 217, pp.367-377, May 2003.
  24. N. Unnikrishanan, P.K. Ray, A. Mahajan, and T.C. Chu,  “Accuracy Considerations in a 3-D Ultrasonic Positioning System based on the Difference in Time of Flights,” Journal of Dynamic Systems, Measurements, and Control, Transactions of ASME, Vol. 124, No. 4, pp. 688-693, Dec. 2002.
  25. T.C. Chu, A. Mahajan, and C.T. Liu, “An Economical Vision Based Method to Obtain Whole-Field Deformation Profiles,” Experimental Techniques, Vol. 26, No.6, pp. 25-28, Nov/Dec 2002.
  26. R. P. Brady, M. R. Manohar, T. C. Chu, and S. S. Russell, “Thermal Image Analysis for the In-Situ NDE of Composites,” Journal of Composites Technology and Research, JC-TRER, Vol. 21, No. 3, pp. 141-146, July 1999.
  27. Y. Wu, Y. Rong, and T.C. Chu, “Automated Generation of Dedicated Fixture Design,” International Journal of Computer Applications in Technology, Vol. 10, Nos. 3/4, pp. 213-235, 1997.
  28. T.C. Chu, S.C. Yen, and V. Sankaran, “Finite Element Model Generation for a Truss Using Imaging Techniques,” Experimental Techniques, Vol. 19, No. 4, pp. 21-23, July/August 1995.
  29. S.C. Yen, T.C. Chu, et al., “Diagnosis of Subsequent Failure Mechanisms of Composite Laminates,” International Journal of Offshore and Polar Engineering, Vol. 4, No. 3, pp. 248-256, September 1994.
  30. S.C. Yen, T.C. Chu, and H. Jao, “Application of Optical Microscopic Analysis to Composite Materials,” Experimental Techniques, Vol. 15, No. 5, pp. 22-25, September/October 1991.
  31. Z.L. Kahn-Jetter and T.C. Chu, “Three-dimensional Displacement Measurements Using Digital Image Correlation and Photogrammic Analysis,” Experimental Mechanics, Vol. 30, No. 1, pp. 10-16, March 1990.
  32. Z.L. Kahn-Jetter and T.C. Chu, “Detecting Three-Dimensional Displacement Using a PC-Based Imaging Processing System,” Pixel, Comput. Graph., CAD/CAM, and Image Process., Vol. 8, No. 10, pp. 35-40, 1987.
  33. T.C. Chu, W.F. Ranson, W.H. Peters, and M.A. Sutton, “Application of Digital Image Correlation Techniques to Experimental Mechanics,” Experimental Mechanics, Vol. 25, No. 3, pp. 232-244, September 1985.
  34. W.H. Peters, W.F. Ranson, M.A. Sutton, T.C. Chu, and J. Anderson, “Application of Digital Correlation Methods to Rigid Body Mechanics,” Optical Engineering, Vol. 22, No. 6, pp. 738-742, November 1983.