Dr. Thomas Krause

Dr. Thomas Krause
BSc., MSc., PhD., Professeur
Bureau:
L'édifice Sawyer, Bureau 3311
Téléphone:
(613) 541-6000 poste 6415
Télécopieur:
(613) 541-6040
Courriel:
Département de physique et de sciences spatiales
Collège militaire royal du Canada
CP 17000, Succursale Forces
Kingston (Ontario) CANADA
K7K 7B4

Dr. Krause est un expert en évaluation non-destructive (END) des matériaux en utilisant les tourbillons et les techniques d'ultrasons.

Thomas W. Krause a reçu son baccalauréat de l'Université de Calgary à Calgary, Alberta, Canada en 1987. Il a réussi sa maîtrise et son doctorat en physique à L’Université McMaster à Hamilton, Ontario, Canada en 1989 et 1992 respectivement. Il a été un membre du groupe « Applied Magnetics » de Université Queen’s à Kingston, Ontario, Canada de 1992 à 1996. En 1996, il a occupé un poste de physicien avec les Laboratoires Canadiens nucléaires en tant que responsable du développement des technologies d’essais non destructifs (END) pour l'industrie nucléaire. En 2006, il a accepté un poste de professeur agrégé au Collège militaire royal du Canada. En 2008, il a été promu professeur titulaire. Il dispose de 24 années d'expérience en recherche et développement avancés en technologie END, y compris les courants de Foucault, les courants de Foucault pulsés, le bruit Barkhausen magnétique et le sondage des matériaux et structures par ultrasons.

La recherche en END comprend l'expérimentation en laboratoire et la modélisation par ordinateur dans les champs d'étude suivants :

  • Inspection par courant de Foucault
  • Évaluation par courant de Foucault multi-fréquentiel
  • Courants de Foucault pulsés
  • Courant de Foucault du champ éloigné
  • Probabilité de détection
  • Inspection par méthodes ultrasoniques

Publications récentes

  • G. Klein, J. Morelli, T.W. Krause, ‘Analytical Model of the Eddy Current Response of a Drive-Receive Coil System inside Two Concentric Tubes’, NDT&E Int., Vol. 96, juin 2018, 18-25.
  • M. S. Luloff, D. Desjardins, J. Morelli and T. W. Krause, “Solution for a Transmit-Receive Eddy Current Probe Above a Layered Planar Conductive Structure”, NDT&E Int., Vol. 96, juin 2018, 1-8
  • D.P. Johnston, J.A. Buck, P.R. Underhill, J. Morelli, T.W. Krause, ‘Pulsed Eddy Current Detection of Loose Parts in Steam Generators’, IEEE Sensors Journal, Vol. 18 (6), 2506-2512, mars, 2018
  • N. Alatawneh, P. R, Underhill, T.W. Krause, ‘Low Frequency Eddy Current Testing for Detection of Sub-Surface Cracks in CF-188 Stub Flange’, IEEE Sensors Journal, Vol. 18 (4), fev. 2018, 1568 – 1575
  • T. Reyno, P. R, Underhill, T.W. Krause, C. Marsden, D. Wowk, ‘Surface Profiling and Core Evaluation of Aluminum Honeycomb Sandwich’, Sensors, 17, 2017, 2114
  • S.G. Mokros, P.R. Underhill, J. Morelli and T.W. Krause, Pulsed eddy current inspection of wall loss in steam generator trefoil broach supports, IEEE Sensors Journal, 17, 2017, 444 - 449
  • A. A. Samimi, T.W. Krause, L. Clapham, M.Gallaugher, Y. Ding, R. Chromik, Manufacturing Inspection of Electrical Steels using Magnetic Barkhausen Noise: Residual Stress Detection, CINDE Journal, 37, sep./oct., 2016, 26-30.
  • D.M. Butt, P.R. Underhill and T.W. Krause, Examination of Pulsed Eddy Current for Inspection of Second Layer Aircraft Wing Lap-Joint Structures Using Outlier Detection Methods, CINDE Journal, 37, sep./oct. 2016, 6-10.
  • A.A. Samimi, T.W. Krause and L. Clapham, Multi-parameter Evaluation of Magnetic Barkhausen Noise in Carbon Steel, Journal of Nondestructive Evaluation', 35 sep. 2016, 40:1-13. doi:10.1007/s10921-016-0358-4
  • A.A. Samimi, T.W. Krause and L. Clapham, Stress-Response of Magnetic Barkhausen Noise in Submarine Hull Steel: A Comparative Study’, Journal of Nondestructive Evaluation', 35:32, juin 2016.
  • D.P.R. Desjardins, T.W. Krause, and L. Clapham, 'Transient eddy current method for the characterization of magnetic permeability and conductivity', Nondestructive Testing and Evaluation International, 80, juin 2016, pp. 65-70.
  • S. Shokralla, J. Morelli, T. W. Krause, “Principal Components Analysis of Multi-frequency Eddy Current Data Used to Measure Pressure Tube to Calandria Tube Gap”, IEEE Sensors Journal, 16, mai 2016, pp. 3147-3154.
  • J.A. Buck, P.R. Underhill, J. Morelli and T.W. Krause, “Simultaneous Multi-Parameter Measurement in Pulsed Eddy Current Steam Generator Data using Artificial Neural Networks”, IEEE Transactions on Instrumentation & Measurement, 65, No. 3, mar 2016, pp. 672-679.
  • D.P.R. Desjardins, T.W. Krause, and L. Clapham, ‘Transient Response of a Driver-Pick-up Coil Probe in Transient Eddy Current Testing’, Nondestructive Testing and Evaluation International, 17, oct. 2015, pp. 8-14.
  • P.R. Underhill and T.W. Krause, ‘Eddy Current Probability of Detection for Mid-Bore and Corner Cracks in Bolt Holes of Service Material’, Research in Nondestructive Evaluation, Research in Nondestructive Evaluation, 27, 2016, pp. 34-37.
  • J.A. Buck, P.R. Underhill, S.G. Mokros, J. Morelli, V.K. Babbar, B. Lepine, J. Renaud and T.W. Krause, “Pulsed eddy current inspection of support structures in steam generators”, IEEE Sensors Journal, 15, No. 8, août 2015, pp. 4305-4312. 
  • D.P.R. Desjardins, T.W. Krause, and L. Clapham, ‘Transient Response of a Driver Coil in Transient Eddy Current Testing’, Nondestructive Testing and Evaluation International, 73, jul 2015, pp. 22-27.
  • S. Shokralla, S. Sullivan, J. Morelli, T. W. Krause, ‘Modelling and Validation of Eddy Current Response to Changes in Factors Affecting Pressure Tube to Calandria Tube Gap Measurement’, NDT&E, 73, mar 2015 pp. 15-21.
  • M. Gallaugher, A. Samimi, T. W. Krause, L. Clapham, R.R. Chromik, ‘Local magnetic properties in non-oriented electrical steel and their dependence on magnetic easy axis and misorientation parameters’, Metallurgical and Materials Transactions A, 46A, mar 2015, pp. 1262-1276.
  • C. Stott, P. R. Underhill, V. K. Babbar and T. W. Krause, ‘Pulsed Eddy Current Detection of Cracks in Multilayer Aluminum Lap Joints’, IEEE Sensors Journal, 15, fev. 2014, pp. 956-962.
  • A.A. Samimi, T.W. Krause, L. Clapham, M. Gallaugher, Y. Ding, P. Ghosh, R. Chromik and A. M. Knight, ‘Correlation Between AC Core Loss with Surface Magnetic Barkhausen Noise in Electric Motor Steel’, Journal of Nondestructive Evaluation, 33, dec. 2014, pp. 663–669.
  • D.P.R. Desjardins, T.W. Krause, A.Tetervak and L. Clapham, ‘Concerning the Derivation of Exact Solutions to Inductive Circuit Problems for Eddy Current Testing’, Nondestructive Testing and Evaluation Int., 68, dec. 2014, pp. 128-135.
  • V. K. Babbar, P. R. Underhill, C. Stott and T. W. Krause, ‘Finite Element Modeling of Second Layer Crack Detection in Aircraft Bolt Holes with Ferrous Fasteners Present’, Nondestructive Testing and Evaluation International, 65, jul 2014, pp. 64-71.
  • S. Shokralla, T.W. Krause, J. Morelli, ‘Surface Profiling with High Density Eddy Current Non-Destructive Examination Data’, Nondestructive Testing and Evaluation International, 62, mar 2014, pp. 153-159.
  • S. Shokralla and T.W. Krause, ‘Methods for Evaluation of Accuracy with Multiple Essential Parameters for EC Measurement of PT-CT Gap in CANDU® Reactors’, CINDE Journal, 35, no. 1, jan/fev 2014, pp. 5-8.
  • P. Horan, P.R. Underhill and T.W. Krause, ‘Real time pulsed eddy current detection of cracks in F/A-18 inner wing spar using discriminant separation of Modified Principal Component Analysis scores’, IEEE Sensors Journal, Vol. 14,No. 1, Jan 2014, pp. 171-177.
  • D.P.R. Desjardins, T.W. Krause and N. Gauthier, ‘Analytical modeling of the transient response of a coil encircling a ferromagnetic conducting rod in pulsed eddy current testing’, Nondestructive Testing and Evaluation International, 60, dec 2013, pp. 127-131.
  • P. Horan, P.R. Underhill and T.W. Krause, ‘Pulsed Eddy Current Detection of Cracks in F/A-18 Inner Wing Spar without Wing Skin Removal using Modified Principal Component Analysis’, Nondestructive Testing & Evaluation International, 55, avr. (2013), 21-27.
  • S. White, L. Clapham and T.W. Krause, “A multi-channel magnetic flux controller for periodic magnetizing conditions.” IEEE Trans. Instr. and Meas. 61, no. 7, (2012) pp. 1896-1907.
  • P.R. Underhill and T.W. Krause, “Enhancing Probability of Detection and Analysis of Bolt Hole Eddy Current,” J. of Nondestructive Eval., 30, no. 4 (2011), 237-245.
  • W.H. Huang, T.W. Krause and B.J. Lewis, “Laboratory Tests of an Ultrasonic Inspection Technique for Identification of Defective CANDU Fuel Elements,” Nuclear Technology, 176, Dec.(2011), 452-461.
  • A.K. Edwards, S. Savage, P.L. Hungler and T.W. Krause, “Examination of F/A-18 Honeycomb Composite Rudders for Disbond due to Water using Through-Transmission Ultrasonics”, Ultragarsas (Ultrasound), 66, (2011) 36-44.
  • P.R. Underhill and T.W. Krause, “Eddy Current Analysis of Mid-Bore and Corner Cracks in Bolt Holes,” NDT&E International, 44, no. 1 (2011), 513-518.
  • P.R. Underhill and T.W. Krause, “Quantitative Fractography for Improved Probability of Detection (POD) Analysis of Bolt Hole Eddy Current.”, Research in Nondestructive Evaluation, 22, no. 2, (2011) 92-104.
  • H. Lemire, P.R. Underhill, T.W. Krause, M. Bunn and D.J. Butcher, “Improving Probability of Detection in Bolt Hole Eddy Current Inspection,” Research in Nondestructive Evaluation, 21, no. 3, (2010) 141-156.

Un liste complète des publications est disponible au ResearchGate (anglais seulement).

Étudiants de 2ième et 3ième cycles

  • Perryn Bennett
  • Kenneth Faurschou
  • Deborah Swanson
 

Commentaires

Commentaires et suggestions sont bienvenus à : bryce.bennett@rmc.ca

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