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Integrated Studies

Journals 

  1. Characterizing suspension plasma spray coating formation dynamics through curvature measurements RC Seshadri, G.Dwivedi, V. Visawnathan, S. Sampath, J.Thermal Spray Tech. (2016) Article in Press.
  2. Viswanathan, V., Dwivedi, G. and Sampath, S. Multilayer, Multimaterial Thermal Barrier Coating Systems: Design, Synthesis, and Performance Assessment (2015), J. Am. Ceram. Soc., 98: 1769–1777.
  3. Viswanathan, V., Dwivedi, G., & Sampath, S. Engineered Multilayer Thermal Barrier Coatings for Enhanced Durability and Functional Performance (2014), Journal of the American Ceramic Society, 97(9), 2770-2778.
  4. Gupta, M., Dwivedi, G., Nylen, P., Vackel, A., & Sampath, S. An Experimental Study of Microstructure-Property Relationships in Thermal Barrier Coatings. (2013), Journal of thermal spray technology, 22(5), 659-670.
  5. Dwivedi, G., Nakamura, T., & Sampath, S. Controlled Introduction of Anelasticity in Plasma‐Sprayed Ceramics (2011), Journal of the American Ceramic Society, 94(s1), s104-s111.
  6. Valarezo, A., & Sampath, S. An integrated assessment of process-microstructure-property relationships for thermal-sprayed NiCr coatings. (2011), Journal of thermal spray technology, 20(6), 1244-1258.
  7. A.Vaidya, V.Srinivasan, T.Streibl, M.Friis, W.Chi and S.Sampath, Process maps for plasma spraying of yttria stabilized zirconia: An integrated approach to design, optimization and reliability, Mat.Sci.&Eng. A, 497 (2008) 239-253.
  8. J.R.Colmenares-Angulo, V.Cannillo, L.Lusvarghi, A.Sola and S.Sampath, “Role of Process Type and Process Conditions on Phase Content and Physical Properties of Thermal Sprayed TiO2-Coatings”, J.Materials Science, 2008, in press.
  9. W.B.Choi, L.Li, V.Luzin, R.Neiser, T.Gnaupel-Herold, H.J.Prask, S.Sampath and A.Gouldstone, “Integrated characterization of cold sprayed aluminum coatings, Acta Materialia 55 (2007) 857-866.
  10. E. Turunen, T. Varis, S-P. Hannula, A. Kulkarni, J. Gutleber, A. Vaidya, S. Sampath, H. Herman, “On the role of particle state and deposition procedure on mechanical, tribological and dielectric response of high velocity oxy-fuel sprayed alumina coatings”, Mater. Sci. & Eng. A415, (2006), pp. 1-11.
  11. A. Vaidya, T. Streibl, L. Li, Sampath, O. Kovarik, and R Greenlaw, “An Integrated Study of Thermal Spray Process - Structure - Property Correlations: a case study for plasma sprayed molybdenum coatings”, Accepted Mater. Sci. & Eng. A403, (2005), pp. 191-204.
  12. A. Kulkarni, J. Gutleber, S. Sampath, A. Goland, W. B. Lindquist, H. Herman, A. J. Allen and B. Dowd, “Studies of the microstructure and properties of dense ceramic coatings produced by high-velocity oxygen-fuel combustion spraying”, Mater. Sci. & Eng. A, 369 (2004), pp. 124-137
  13. S. Sampath, X. Y. Jiang, J. Matejicek, L. Prchlik, A. Kulkarni and A. Vaidya, “Role of thermal spray processing method on the microstructure, residual stress and properties of coatings: an integrated study for Ni-5 wt.%Al bond coats”, Mater. Sci. & Eng. A, 364 (2004), pp. 216-231.
  14. A. Kulkarni, A. Vaidya, A. Goland, S. Sampath and H. Herman, “Processing effects on porosity-property correlations in plasma sprayed yttria-stabilized zirconia coatings”, Mater. Sci. & Eng. A, 359 (2003), pp. 100-111.
  15. S. Sampath, X. Jiang, A. Kulkarni, J. Matejicek, D. L. Gilmore and R. A. Neiser, “Development of process maps for plasma spray: case study for molybdenum”, Mater. Sci. & Eng. A, 348 (2003), pp. 54-66.
  16. S.Sampath, X.Y.Jiang, J.Matejicek, A.C.Leger and A.Vardelle, “Substrate Temperature Effects on Splat Formation, Microstructure Development and Properties of Plasma Sprayed Coatings: Part I: Case Study for Partially Stabilized Zirconia”, Mater. Sci. & Eng. A, A272 (1999), pp. 181.
  17. X.Y.Jiang, S.Sampath and J.Matejicek, “Substrate Temperature Effects on Splat Formation, Microstructure Development and Properties of Plasma Sprayed Coatings: Part II: Case Study for molybdenum”, Mater. Sci. & Eng. A, A272 (1999), pp. 189. 

Proceedings

 

  1. R C Seshadri, S. Sampath, Characterization of the Deposition Formation Dynamics of Suspension Plasma Spray Coatings using In-Situ Coating Property Measurements: Proceedings of the International Thermal Spray Conference & Exposition 2016, Shanghai-China, Volume 324, ISBN 978-3-87155-574-9, PP 85-90.
  2. A.Valarezo, W.B.Choi, W.Chi, A.Gouldstone and S.Sampath, Process maps of NiCr coatings by HVOF spraying, Proceedings of International Thermal Spray Conference, China, May 2007.
  3. T.Varis, E.Turunen, A.Valarezo, S.Sampath, X.Liu, S.P.Hannula, Formation mechanisms, structure and properties of HVOF sprayed WC-CoCr coatings: An approach towards process maps, Proceedings of International Thermal Spray Conference, Beijing, China, May 2007.
  4. W.Chi, V.Srinivasan, A.Sharma, S.Sampath and R.Gambino, “Processing-microstructure-property relations in anisotropic thermal sprayed composites, Mat.Res.Soc.Symp.Proc., 2006, Vol.977 FF04-15
  5. A. Vaidya, T. Streibl, L. Li, S. Sampath, A. Gouldstone, O. Kovarik and R. Greenlaw, “Comprehensive Study of the Process-property Correlations: Case Study for Molybdenum Coatings”, Thermal Spray Solutions: Advances in Technology and application (ITSC 2004), Osaka, Japan, 2004, Electronic proceedings
  6. A. Vaidya, T. Streibl, L. Li, S. Sampath, A. Gouldstone, O. Kovarik and R. Greenlaw, “Comprehensive Study of the Process-property Correlations: Case Study for Molybdenum Coatings”, Thermal Spray Solutions: Advances in Technology and application (ITSC 2004), Osaka, Japan, 2004, Electronic proceedings
  7. G. Wei, H. B. Xiong, L. L. Zheng and H. Zhang, “Modeling from Particle In-flight to Coating Build-up for Thermal Spray Processes”, 2004 ASME Heat Transfer/Fluids Engineering Summer Conference, HT-FED2004-5636, Charlotte, North Carolina, 2004, Electronic proc.
  8. G. Wei and H. Zhang, “An Integrated Thermal Spray Modeling from Particle in-flight to Coating Deposition”, 6th International Symposium on Heat Transfer, Beijing, China, 2004, p.90-95
  9. D. Gilmore, R. Neiser, Y. Wan and S. Sampath, “Process Maps for Plasma Spray Part I: Plasma - Particle Interactions”, in C. C. Berndt, ed., Thermal Spray Surface Engineering via Applied Research (Proceedings of the 1st ITSC, May 2000), ASM International, Materials Park, 2000, p149.
  10. H. Herman and A. Kulkarni, “Thermal Spray Coatings: Materials, Processing and Properties”, 1st International ICAMP Meeting, New Zealand, 2000, p.13.
  11. X. Jiang, J. Matejicek , A. Kulkarni, H. Herman, S. Sampath, D. Gilmore and R. Neiser, “Process Maps for Plasma Spray Part II : Deposition and Properties”, in C. C. Berndt, ed., Thermal Spray Surface Engineering via Applied Research (Proceedings of the 1st ITSC, May 2000), ASM International, Materials Park, 2000, p157.
  12. R.S.Lima, A.Kucuk, and C.C.Berndt, “Correlation Between Deposition Efficiency, Hardness and Elastic Modulus for Thermally Sprayed Zirconia” ITSC 2000, Montreal, Canada, 2000, p1201-1205.
  13. S.Depalo, S.Usmani, K.Kishi, S.Sampath and D.J.Sordelet and M.F.Besser, “Thermal Sprayed Quasicrystalline Coatings, Part II: Relationships Among Processing, Phase Assemblage and Tribological Response”, Proc. of the 15th ITSC, Vol. 1, Ed. C.Coddet, Nice, France,May, 1998, p705.
  14. J.Matejicek, S.Sampath and H.Herman, “Processing Effects on Splat Formation, Microstructure and Quenching Stress in Plasma Sprayed Coatings”,Proc. of the 15th ITSC, Vol. 1, Ed. C.Coddet, Nice, France, May, 1998, p419.
  15. S.Usmani, S.Sampath, and D.L.Houck, “Effect of Microstructure and Alloy Additions on the Friction and Abrasion Response of Plasma Sprayed Molybdenum Alloy Coatings”, Proc. of the 15th ITSC, Vol. 1, Edited by: Christian Coddet, Nice, France, May, 1998, p127.
  16. S. Sampath, L. Prchlik and K. Kishi, “Synthesis: Thermo-Mechanical Properties and Fictional Responses of NiCrAlY-PSZ Composite and Graded Coatings”, in C. C. Berndt, ed., Thermal Spray: Surface Engineering via Applied Research (ITSC 2000), ASM International, Materials Park, OH, USA, Montreal, Quebec, Canada, 2000, p1227
  17. S.Sampath, W.C.Smith, T.J.Jewett and H.Kim, “Synthesis and Characterization of Grading Profiles in Plasma Sprayed NiCrAlY-Zirconia FGMs”, Functionally Graded Materials 1998, p383.
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