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Herrera-Jimenez, E. J., Raveh, A., Schmitt, T., Bousser, E., Sapieha, J.-E., & Martinu, L. (2019). Solid solution hardening in nanolaminate ZrN-TiN coatings with enhanced wear resistance. Thin Solid Films, 688, 137431 (6 pages). External link
Imbriglio, S. I., Munagala, V. N. V., Schmitt, T., Gauvin, R., Sapieha, J.-E., & Chromik, R. R. (2019). Failure dynamics of spherical and irregular shaped Ti splats deposited on sapphire by cold spray. Surface Topography-Metrology and Properties, 7(4), 045002 (13 pages). External link
Kilicaslan, A., Zabeida, O., Bousser, E., Schmitt, T., Sapieha, J.-E., & Martinu, L. (2019). Hard titanium nitride coating deposition inside narrow tubes using pulsed DC PECVD processes. Surface and Coatings Technology, 377, 124894 (10 pages). External link
Laberge, M., Bousser, E., Schmitt, J., Koshigan, M., Schmitt, T., Khelfaoui, F., Isbitsky, S., Vernhes, L., & Sapieha, J.-E. (2018). Predicting the Load-Carrying Capacity and Wear Resistance of Duplex-Coated Low-Strength Alloys for Severe Service Ball Valves. Journal of Thermal Spray Technology, 27(7), 1177-1186. External link
Praud, F., Schmitt, T., Zabeida, O., Maïza, S., Martinu, L., & Lévesque, M. (2021). Phase field fracture models to predict crack initiation and propagation in anti-reflective coatings. Thin Solid Films, 736, 14 pages. External link
Poirie, T., Schmitt, T., Bousser, E., Martinu, L., & Sapieha, J.-E. (2016). In-situ real-time nanowear testing method of optical functional thin films. Tribology International, 95, 147-155. External link
Trottier-Lapointe, W., Zabeida, O., Schmitt, T., & Martinu, L. (2016, June). Optical films with enhanced mechanical performance obtained by hybrid glancing angle deposition [Paper]. Optical Interference Coatings (OIC 2016), Tucson, AZ, United states. External link
Trottier-Lapointe, W., Zabeida, O., Schmitt, T., & Martinu, L. (2016). Ultralow refractive index optical films with enhanced mechanical performance obtained by hybrid glancing angle deposition. Applied Optics, 55(31), 8796-8805. External link