Categories


Integrated Studies       (T.O.C.)

  1. Gupta M, Dwivedi G, Nylen P, Vackel A, Sampath S (2013) An Experimental Study of Microstructure-Property Relationships in Thermal Barrier Coatings. J Therm Spray Techn 22:659-670.
  2. G. Dwivedi, V. Viswanathan, and S. Sampath, Multilayer Thermal Barrier Coatings for Gasified Coal Based Turbine Engines, Adv Mater Process, 2013, 171(5), p. 49-5 in English
  3. Tan Y, Srinivasan V, Nakamura T, Sampath S, Bertrand P, Bertrand G (2012) Optimizing Compliance and Thermal Conductivity of Plasma Sprayed Thermal Barrier Coatings via Controlled Powders and Processing Strategies. J Therm Spray Techn 21:950-962.
  4. Valarezo A, Sampath S (2011) An Integrated Assessment of Process-Microstructure-Property Relationships for Thermal-Sprayed NiCr Coatings. J Therm Spray Techn 20:1244-1258.
  5. Valarezo A, Bolelli G, Choi WB, Sampath S, Cannillo V, Lusvarghi L, Rosa R (2010) Damage tolerant functionally graded WC-Co/Stainless Steel HVOF coatings. Surf Coat Tech 205:2197-2208.
  6. Dwivedi G, Wentz T, Sampath S, Nakamura T (2010) Assessing Process and Coating Reliability Through Monitoring of Process and Design Relevant Coating Properties. J Therm Spray Techn 19:695-712.
  7. Drexler JM, Shinoda K, Ortiz AL, Li DS, Vasiliev AL, Gledhill AD, Sampath S, Padture NP (2010) Air-plasma-sprayed thermal barrier coatings that are resistant to high-temperature attack by glassy deposits. Acta Mater 58:6835-6844.
  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, 44 (2009) 2276-2287.
  9. S.Sampath, V.Srinivasan, A.Valarezo, A.Vaidya and T.Streibl, Sensing, Control and Insitu Measurement of Coating Properties : An Integrated Appoach towards Establishing Process-Property Correlations, J.Thermal Spray Tech. Vol18(2) June 2009, 243.
  10. 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.
  11. 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
  12. 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. 1-11.2A.
  13. 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. 191-204.3A.
  14. 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.
  15. 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.
  16. 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. 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
  2. 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

Process Science and Modeling       (T.O.C.)

Journals
  1. Chen YK, Tan Y, Tessarini S, Sampath S (2013) Integrated Study of APS YSZ Coatings with Different Spray Angle. J Therm Spray Techn 22:110-115.
  2. Zois D, Wentz T, Dey R, Sampath S, Weyant CM (2013) Simplified Model for Description of HVOF NiCr Coating Properties Through Experimental Design and Diagnostic Measurements. J Therm Spray Techn 22:299-315.
  3. Tran ATT, Hyland MM, Shinoda K, Sampath S (2011) Influence of substrate surface conditions on the deposition and spreading of molten droplets. Thin Solid Films 519:2445-2456.
  4. Colmenares-Angulo J, Shinoda K, Wentz T, Zhang W, Tan Y, Sampath S (2011) On the Response of Different Particle State Sensors to Deliberate Process Variations. J Therm Spray Techn 20:1035-1048.
  5. A.Valarezo, W.B.Choi, W.Chi, A.Gouldstone and S.Sampath, Process control and characterization of NiCr coatings by HVOF DJ2700 system : A process map approach, J. Thermal Spray Technology, 2010, accepted.
  6. Valarezo A, Choi WB, Chi WG, Gouldstone A, Sampath S (2010) Process Control and Characterization of NiCr Coatings by HVOF-DJ2700 System: A Process Map Approach. J Therm Spray Techn 19:852-865.
  7. K.Shinoda, Y.Tan and S.Sampath, Loading effects of yttria stabilized zirconia powder on in-flight particle state and deposit efficiency in atmospheric dc plasma spraying, Plasma chemistry and plasma processing. Plasma Chemistry and Plasma Processing, December 2010, Volume 30 Issue 6, pp 761-778
  8. W.Zhang and S.Sampath, A Universal Method for Representation of In-Flight Particle Characteristics in Thermal Spray Processes, J.Thermal Spray Tech. 18 (1) (2008) 23-34.
  9. W.Zhang and S.Sampath, A Universal Method for Representation of In-Flight Particle Characteristics in Thermal Spray Processes, J.Thermal Spray Tech. (2008) in press.
  10. W.Zhang, L.L.Zheng, H.Zhang and S.Sampath, Study of Injection Angle and Carrier Gas Flow Rate Effects on Particle In-flight Characteristics in Plasma Spray Process: Modeling and Experiments, Plasma Chemistry and Plasma Processing, 27 (2007) 701-716
  11. V.Srinivasan, M.Friis, A.Vaidya, T.Streibl and S.Sampath, “Particle injection in direct current air plasma spray: salient observations and optimization strategies, Plasma Chemistry and Plasma Processing, 27 (2007) 609-623
  12. 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.
  13. T.Streibl, A.Vaidya, M.Friis, V.Srinivasan and S.Sampath, “A critical assessment of particle temperature distributions during plasma spraying: Experimental results for YSZ”, Plasma Chemistry and Plasma Processing 26 (1) (2006), pp.73-102.
  14. L. Li, A. Vaidya, S. Sampath, H. Xiong, and L. Zheng, “Particle characterization and splat formation of plasma sprayed Zirconia,” Journal of Thermal Spray and Technology, Vol. 15, No.1 March, (2006) pp. 97- 105.
  15. H. B. Xiong, L. L. Zheng, T. Streibl, “Investigation of particle surface temperature distributions as melting state indicator for plasma spraying of ceramic materials” Plasma Chemistry and Plasma Processing, 26 (1) (2006) pp53-72.
  16. H.B. Xiong, L.L. Zheng,L. Li and A. Vaidya, “Melting and oxidation behavior of in-flight particles in plasma spray process,” Int. J. Heat and Mass Transfer, Vol. 48, (2005), pp.5121-5133.
  17. H. B. Xiong, L. L. Zheng, S. Sampath, R. L. Williamson and J. R. Fincke, “Three-Dimensional Simulation of Plasma Spray: Effects of Carrier Gas Flow and Particle Injection on Plasma Jet and Entrained Particle Behavior”, International Journal of Heat and Mass Transfer, 47 (2004), pp. 5189-5200
  18. Y. P. Wan, S. Sampath, V. Prasad, R. Williamson and J. R. Fincke, “An advanced model for plasma spraying of functionally graded materials”, Journal of Materials Processing Technology, 137 (2003), pp. 110- 116.
  19. H. B. Xiong and L. L. Zheng, “Melting, oxidation, evaporation of particle in-flight in plasma spray processes”, Journal of Materials Science and Technology, 19 (2003), pp. 49-52.
  20. 34Y. P. Wan, J. R. Fincke, S. Sampath, V. Prasad and H. Herman, “Modeling and experimental observation of evaporation from oxidizing molybdenum particles entrained in a thermal plasma jet”, International Journal of Heat and Mass Transfer, 45 (2002), pp. 1007-1015.
  21. X. Jiang, Y. Wan, H. Herman and S. Sampath, “Role of condensates and adsorbates on substrate surface on fragmentation of impinging molten droplets during thermal spray”, Thin Solid Films, 385 (2001), pp. 132-141.
  22. A. Kucuk, R. S. Lima and C. C. Berndt, “Influence of plasma spray parameters on in-flight characteristics of ZrO2-8 wt% Y2O3 ceramic particles”, Journal of the American Ceramic Society, 84 (2001), pp. 685-692.
  23. A. Kucuk, R. S. Lima and C. C. Berndt, “Influence of plasma spray parameters on formation and morphology of ZrO2-8 wt% Y2O3 deposits”, Journal of the American Ceramic Society, 84 (2001), pp. 693- 700.
  24. Y. P. Wan, J. R. Fincke, X. Y. Jiang, S. Sampath, V. Prasad and H. Herman, “Modeling of oxidation of molybdenum particles during plasma spray deposition”, Metallurgical and Materials Transactions B, 32 (2001), pp. 475-481.
  25. P. Wan, V. Gupta, Q. Deng, S. Sampath, V. Prasad, R. Williamson and J. R. Fincke, “Modeling and visualization of plasma spraying of functionally graded materials and its application to the optimization of spray conditions”, Journal of Thermal Spray Technology, 10 (2001), pp. 382-389.
  26. 40L. L. Zheng and H. Zhang, “A 3D adaptive level set scheme for moving boundary problems: Application to droplet spread and solidification”, Numerical Heat Transfer Part B-Fundamentals, 37 (2000), pp. 437-454.
  27. X. Jiang, J. Matejicek , A. Kulkarni, H. Herman, S. Sampath, D. Gilmore and R. Neiser, &ldquoP 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
  28. R.C.Dykhuizen, M.F.Smith, D.L.Gilmore, R.A.Neiser, X.Jiang and S.Sampath, “Impact of High Velocity Cold Spray Particle”, J. Thermal Spray Tech. 8(1999), pp. 559.
  29. Y.P.Wan, V.Prasad, G.-XWang, S.Sampath, and , J.R.Fincke, “Model Particle Heating, Melting, Resolidification, and Evaporation on Plasma Spraying Processes”, J. Heat Transfer, 121(1999), pp. 691.
  30. 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.
  31. 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
  32. H. Zhang and V. Prasad, “An Advanced Numerical Scheme for Materials Process Modeling”, Computer Modeling Simulation Eng., 2 (1997), pp. 322.
Proceedings
  1. R.Molz, A.Valarezo and S.Sampath, Comparison of Coating Stresses Produced by High Velocity Liquid/Gas Fuel and Triplex Pro 200 Plasma Processes Using In-Situ Coating Stress Measurement, International Thermal Spray Conference, Maastricht, 2008, CD proceedings.
  2. 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
  3. 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.
  4. 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, HTFED2004- 5636, Charlotte, North Carolina, 2004, Electronic proc.
  5. W.Zhang, S.Sampath and L.L.Zheng, “Experimental and Numerical Studies of Plasma Forming Process Parameters: Effect on Optimum Particle Impact Locations, Proceedings of International Thermal Spray Conference, Beijing, China, May 2007.
  6. G.Wei, MZhang, W.Zhang, H.Zhang, L.Zheng and S.Sampath, To achieve epitaxy thermal spraying by substrate melting, Proceedings of International Thermal Spray Conference, Beijing, China, May 2007.
  7. W.Zhang, L.Zheng, H.Zhang, and S.Sampath, Generic correlation of spray distance with in-flight particle behavior for different kinds of materials in air plasma spraying, Proceedings of HT 2007, ASMEJSME Thermal Engineering Heat Transfer Conference, Vancouver, British Columbia, Canada, HT2007-32393.
  8. V. Srinivasan, A. Vaidya, T. Streibl, M. Friis, S. Sampath , “On the reproducibility of Air Plasma Spray Process and Control of Particle State,” International Thermal Spray Conference & Expositions (ITSC) Seattle, Washington, 2006, Electronic Proceedings.
  9. S. Sampath, V. Srinivasan, A. Vaidya, A. Gouldstone, Y. Liu, T. Nakamura, “Sensing, Control, and Insitu Extraction of Coating Properties: An Integrated Approach towards Establishing Process Maps,” Thermal Spray Conference & Expositions ( ITSC) Seattle, Washington, 2006, Electronic Proceedings.
  10. H. Zhang, L.L.Zheng, G. Wei, H. Xiong, and M.Zhang, “ Integrated Modeling of Radio Frequency Induction Plasma Spray Coating Processes,” 5th International Symposium on Multiphase Flow, Heat Mass Transfer and Energy Conversion, ISMF’05, Xi’an, China, 3-6 July 2005.
  11. 51A. Vaidya, T. Streibl, S. Sampath and H. Zhang, “A Comparative Diagnostic Analysis of Morphologically Different YSZ Powders”, Thermal Spray Solutions: Advances in Technology and application (ITSC 2004), Osaka, Japan, 2004, Proceedings of ASM Electronic Proc.
  12. 51G. Wei, H. B. Xiong, L. L. Zheng and H. Zhang, “An Advanced Ceramic Coating Buildup Model for Thermal Spray Processes”, Thermal Spray Solutions: Advances in Technology and application (ITSC 2004), Osaka, Japan, 2004, Electronic Proceedings.
  13. 52H. B. Xiong, L. L. Zheng, J. Margolies and S. Sampath, “Numerical Simulation of Radio Frequency Induction Plasma Spray Processing”, International Mechanical Engineering Congress and Exposition, IMECE2004-59895, Anaheim, CA, 2004, Electronic Proceedings
  14. 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
  15. H. B. Xiong, L. L. Zheng, S. Sampath, J. R. Fincke and R. L. Williamson, “Three-Dimensional Simulations of Plasma Spray Jet”, ASME: Summer Heat Transfer Conference, HT2003-47153, Las Vegas, Nevada, 2003, Electronic Proceedings
  16. 54H. Zhang, H. B. Xiong, L. L. Zheng, A. Vaidya and L. Li, “Partially Melted Particle and Its Splat Morphology”, in C. Moreau and B. R. Marple, eds., Thermal Spray: Advancing the Science and Applying the Technology (ITSC 2003), ASM International, Materials Park, OH, USA, Orlando, Florida, USA, 2003, p905-911
  17. H. B. Xiong, L. L. Zheng, S. Sampath and J. R. Fincke, “Melting/Oxidation Behavior of In-flight Particles in Plasma Spray Processes”, International Mechanical Engineering Congress and Exposition, New Orleans, Louisiana, 2002, Electronic Proc.
  18. H. Zhang, H. B. Xiong, L. L. Zheng, A. Vaidya, L. Li and S. Sampath, “Melting Behavior of In-flight Particles and Its Effects on Splat Morphology in Plasma Spraying”, International Mechanical Engineering Congress and Exposition 2002-21364, ASME International, New Orleans, Louisiana, USA, 2002, p1-8.
  19. Q. Deng, H. Zhang, V. Prasad, L. Prchlik, and A. Dent, “Modeling of Particle Movement and Thermal Behavior in a High-Velocity Oxy-Fuel (HVOF) Spraying Process”, Proc. National Heat Transfer Conference, NHTC01-11824, 2001, p.1-8.
  20. 58Vaidya, G. Bancke, S. Sampath and H. Herman, “Influence of Process Variables on the Plasma Sprayed Coatings: An Integrated Study&ddquo;, in Berndt. C. C. and Khor. K. A., eds., International Thermal Spray Conference (ITSC 2001), ASM International, Materials Park, OH, Singapore, 2001, , p.1345-1349.
  21. H. Zhang, and L. L. Zheng, “Modeling of In-flight Particle and Deposition During Plasma and HVOF Spraying”, Proc. Int. Conf. on Energy Conversion and Application (ICECA 2001), Wuhan, China, 2001, p.147- 153
  22. 60L.Sun, C.C.Berndt, A.Kucuk, R.S.Lima, and K.A.Khor, “Effect of Spraying Parameters on Phase Formation and Distribution in Plasma Sprayed Hydroxyapatite Coatings”, ITSC 2000, Montreal, Canada, 2000, p803-811.
  23. Y. P. Wan, V. Prasad, S. Sampath and J. R. Fincke, “Evaporation of Plasma Sprayed Powder Particles”, 4th ISHMT/ASME Heat Transfer Conference, Pune, India, 2000
  24. Y.P.Wan, X.Y.Jiang, H.Zhang, S.Sampath, V.Prasad and J.R.Fincke, Modeling of Oxidation of Plasma- Sprayed Molybdenum Particles, ITSC 2000, Montreal, Canada, 2000, p135-139.
  25. 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.
  26. Y.P. Wan, V. Gupta, H. Zhang, A. Varshney, S. Sampath, V. Prasad and J.R. Fincke, “Modeling and Visualization of Plasma Spray of Functionally Graded Materials”, HTD-Vol. 364-3, Proc. of the ASME, Heat Transfer Division, Volume 3, ASME 1999, p389.
  27. Y.P. Wan, S. Sampath, V. Prasad, R. Williamson and J.R. Fincke, “An advanced Model for Plasma
    Spraying of FGMs”, Fifth IUMRS Intl. Conference on Advanced Materials, Beijing, June13-18, 1999.
  28. Y.P. Wan, J.R. Fincke, S. Sampath and V. Prasad, “Modeling the In-flight Oxidation of Plasma Sprayed Mo Particles,” Proc. of 14th Intl. Symp. on Plasma chemistry, 1999, Prague, p1983.
  29. X.Y.Jiang and S.Sampath, “Effect of Substrate Condition on Splat Formation During Thermal Spray Deposition”, Solidification 1998, TMS, p439.
  30. 67S.Sampath, X.Y.Jiang, G.X.Wang and A.Vardelle, “Fundamental Concepts Associated with Plasma Spray Deposition”, Surface Eng., Proc. of the World Conference of Ceramics and Advanced Materials, June 13- 16, 1998 Florence, Italy, p259.
  31. 68Y.P. Wan, V. Prasad, G.-X.Wang, S. Sampath, and J.R. Fincke, Modeling of powder particle heating, melting and vaporization in Plasma Spraying Processes, HTD-Vol.361-4, 1998. p. 67.

Impact and Rapid Solidifications       (T.O.C.)

Journals
  1. R.Molz, A.Valarezo and S.Sampath, “Comparison of Coating Stresses Produced by High Velocity Liquid/Gas Fuel and Triplex Pro 200 Plasma Processes Using In-Situ Coating Stress Measurement, ITSC 2008, Maastricht, Netherlands, CD Proceedings.
  2. L.Li, B.Kharas, H.Zhang and S.Sampath, “Suppression of crystallization during high velocity impact quenching of alumina: observations and characterization”, Materials Science and Engineering, A 456 (2007) 35-42
  3. B.Kharas, G.Wei, S.Sampath and H.Zhang, “Morphology and microstructure of thermal plasma sprayed silicon splats and coatings”, Surface and Coatings Technology, 201 (2006) 1454-1463.
  4. L. Li, G. Wei, A. Vaidya, H. Zhang and S. Sampath, “Substrate Melting during Thermal Spray Splat Quenching”, Thin Solid Films, 468 (2004), pp. 113-119.
  5. H. Zhang, X. Y. Wang, L. L. Zheng and S. Sampath, “Numerical simulation of nucleation, solidification, and microstructure formation in thermal spraying”, International Journal of Heat and Mass Transfer, 47 (2004), pp. 2191-2203.
  6. G. X. Wang, R. Goswami, S. Sampath and V. Prasad, “Understanding the heat transfer and solidification of plasma-sprayed yttria-partially stabilized zirconia coatings”, Materials and Manufacturing Processes, 19 (2004), pp. 259-272.
  7. H. Zhang, G. Wei, L. Zheng, L. Li, X. Y. Wang and A. Vaidya, “Numerical and experimental studies of substrate melting and resolidification during thermal spraying”, Journal of Materials Science & Technology, 19 (2003), pp. 137-140.
  8. X. Y. Wang, H. Zhang, L. L. Zheng and S. Sampath, “An integrated model for interaction between melt flow and non-equilibrium solidification in thermal spraying”, International Journal of Heat and Mass Transfer, 45 (2002), pp. 2289-2301.
  9. G. X. Wang, V. Prasad and S. Sampath, “Rapid solidification in thermal spray deposition: Microstructure and modeling”, Sadhana-Academy Proceedings in Engineering Sciences, 26 (2001), pp. 35-57.
  10. S. Sampath and X. Jiang, “Splat formation and microstructure development during plasma spraying: deposition temperature effects”, Mater. Sci. & Eng. A, 304-306 (2001), pp. 144-150.
  11. H. Zhang, X. Y. Wang, L. L. Zheng and X. Y. Jiang, “Studies of splat morphology and rapid solidification during thermal spraying”, International Journal of Heat and Mass Transfer, 44 (2001), pp. 4579- 4592
  12. Y. P. Wan, H. Zhang, X. Y. Jiang, S. Sampath and V. Prasad, “Role of solidification, substrate temperature and Reynolds number on droplet spreading in thermal spray deposition: Measurements and modeling”, Journal of Heat Transfer-Transactions of the Asme, 123 (2001), pp. 382-389
  13. G. X. Wang and V. Prasad, “Microscale heat and mass transfer and non-equilibrium phase change in rapid solidification”, Mater. Sci. & Eng. A, 292 (2000), pp. 142-148.
  14. 80G. X. Wang, V. Prasad and S. Sampath, “An integrated model for dendritic and planar interface growth and morphological transition in rapid solidification”, Metallurgical and Materials Transactions A, 31 (2000), pp. 735-746.
  15. C.Yao, G.-X.Wang, and B.T.F.Chung, “A Non-Equilibrium Planar Interface Solidification Model for Semitransparent Radiating Materials,” AIAA J. Thermophysics Heat Transfer, 14 (2000), pp. 297-304.
  16. T.Chraska and A.H.King, “Growth of Columnar Grains During Zirconia-Yttria Splat Solidification”, J. Materials Science Letters, 18 (1999), pp. 1517.
  17. H. Zhang, “Theoretical Analysis of Spreading and Solidification of A molten Droplet During Thermal Spray Deposition”, Intl. J. Heat Mass Transfer, 42 (1999), pp. 2499
  18. H.Zhang,. L.L.Zheng, V.Prasad, and T.Y.Hou, “A Curvilinear Level Set Formulation for Highly Deformable Free Surfaces with Application to Solidification”, Num. Heat Transfer, 34 (1998), pp. 1.
  19. G.-X. Wang, S. Sampath, V. Prasad, and H. Herman, “On the Stability of Rapid Planar Solidification During Melt-Substrate Quenching”, Mater. Sci. & Eng. A226-228 (1997), pp. 1035.
  20. G.-X. Wang and V. Prasad, , “Non-Equilibrium Phenomena in Rapid Solidification: Theoretical Treatment for Process Modeling,” Microscale Thermophysical Eng., 1(1997), pp. 143.
  21. G.-X. Wang, V. Prasad, and E.F. Matthys, “An Interface-Tracking Numerical Method for Rapid Solidification of Binary Alloys with Application to Microsegregation,” Mater. Sci. & Eng. A, Vol.A225(1997), pp. 47.
Proceedings
  1. L. Li, X. Y. Wang, A. Vaidya, G. Wei, H. Zhang and S. Sampath, “Substrate Melting During Thermal Spray Splat Quenching: Case Study for Molybdenum Droplets on Various Substrates”, in C. Moreau and B. R. Marple, eds., Thermal Spray 2003 : Advancing the Science and Applying the Technology, ASM Int., Orlando, Fl, USA, 2003, p1041-1046
  2. G. Wei, H. Zhang, L. Li and X. Y. Wang, “Numerical and Experimental Studies of Substrate Melting during Thermal Spraying”, HT2003: ASME Summer Heat Transfer Conference, HT2003-47154, Las Vegas, Nevada, 2003, Electronic Proceedings
  3. H. Zhang, X. Y. Wang and S. Sampath, “Analysis of Undercooling Nucleation, Rapid Solidification, and Microstructure Formation in Thermal Spraying”, International Mechanical Engineering Congress and Exposition 2002-32907, ASME International, New Orleans, Louisiana, 2002, p1-13
  4. X. Y. Wang, H. Zhang, L. L. Zheng, and S. Sampath, “A Micro/Macro Integrated Model for Melt Flow and Non-Equilibrium Solidification for Thermal Spraying”, International Mechanical Engineering Congress and Exposition 2001-24367, ASME International, New York, New York, 2001, p1.
  5. Y. P. Wan, H. Zhang, X. Y. Jiang, S. Sampath and V. Prasad, “Role of Solidification, Substrate Temperature and Reynolds Number on Droplet Spreading in Thermal Spray Deposition”, 33rd National Heat Transfer Conference, Journal of Heat Transfer-Transactions of the ASME, Albuquerque, NHTC99- 121, NM, 2000, Electronic Proc.
  6. G.-X.Wang, X.Y.Jiang, and S.Sampath, Grain Structure Development in Plasma Sprayed Coatings: Experiment and Modeling, in Surface Eng. in Materials Science I, TMS, Nashville, Tennessee, 2000, p197- 209.
  7. G.-X. Wang, V. Prasad, and S. Sampath, “Rapid Solidification in Thermal Spray Deposition: Microstructure and Modeling”, Intl. Workshop on Solidification Processing, India, 2000.
  8. G.-X. Wang, R. Goswami, S. Sampath and V. Prasad, “Heat Transfer and Solidification Analysis of Splat Formation in Plasma-Sprayed Zirconia-Yttria Thermal Barrier Coatings”, 4th ISHMT/ASME Heat Transfer Conference, Pune, India, 2000, p.1135.
  9. G.-X. Wang, V. Prasad and S. Sampath, “Rapid Solidification in Thermal Spray Deposition: Microstructure and Modeling”, International Workshop on Solidification Processing, India, 2000, Vol. 26(1-2), p.35.
  10. X. Y. Jiang, Y. Wan, X. Y. Wang, H. Zhang, R. Goswami, H. Herman and S. Sampath, “Investigation of Splat/Substrate Contact during Molybdenum Thermal Spraying”, in C. C. Berndt, ed., Thermal Spray: Surface Engineering via Applied Research (ITSC 2000), ASM International, Materials Park, OH, USA, Montreal, Quebec, Canada, 2000, p729
  11. H. Zhang, “Mechanism and Modeling of Micro-droplet Impact, Fragmentation and Solidification”, IMECE'2000, Orlando, Fl, USA, 2000, HTD-Vol. 366-3, p.367-379.
  12. H. Zhang, G.-X. Wang, L. L. Zheng, Y. P. Wan and X. Y. Jiang, “Experimental/Numerical Studies of Substrate Melting and Splat Morphology During Spraying”, National Heat Transfer Conference 2000-12184, 2000, p.1-13.
  13. Y.P.Wan,. H.Zhang, X.Y.Jiang, S.Sampath and V.Prasad, “Role of Solidification, Substrate Temperature and Reynolds Number on Droplet Spreading in Thermal Spray Deposition”, Proc. of 33rd Natl. Heat Transfer Conf., NHTC99-121, Albuquerque, New Mexico.
  14. T.Chraska and A.H. King, “Interfaces in Rapidly Solidified Zirconia-Yttria”, Intl. Conference on
    Interfaces and Interphase Boundaries, July 1998, Prague, C.R. Mater. Sci. Forum 294-296 (1999)779.
  15. G.X.Wang, V.Prasad, S.Sampath and H.Herman, &ldquo Modeling of Rapid Solidification During Splat Quenching”, Solidification (1998) TMS, p485.
  16. G.-X.Wang, S.Sampath, V.Prasad, and H.Herman, “Mathematical Model for Microsegregation in Rapidly Solidified Alloys,” Modeling Casting, Welding Advanced Solidification Processes - VIII, TMS, 1998, p219.
  17. R.A.Vardelle, G.-X.Wang, S.Sampath, “Analysis of Nucleation, Phase Selection and Rapid Solidification of an Alumina Splat,” in Thermal Spray: A United Forum for Scientific and Technological Advances, C.C. Berndt (Ed.), ASM Int., Materials Park, Ohio, 1997, p635.
  18. H. Zhang, V. Prasad, and S. Sampath, “Dynamic Simulations of Multiple-Splat Spreading and
    Solidification”, Thermal Spray: A United Forum for Scientific and Technological Advances, Published by ASM Intl., Materials Park, Ohio,Ed. C.C.Berndt, (1997), p645.

Microstructural Characterization       (T.O.C.)

Journals
  1. S. Deshpande, S. Sampath, H. Zhang, “Mechanisms of oxidation and its role in microstructural evolution of metallic thermal spray coatings - Case study for Ni-Al,” Surface & Coating Technology, 200 (18-19) (2006), pp.5395-5406.
  2. 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 highvelocity oxygen-fuel combustion spraying”, Mater. Sci. & Eng. A, 369 (2004), pp. 124-137.4S.
  3. A. Kulkarni, A. Vaidya, A. Goland, S. Sampath and H. Herman, �Processing effects on porosityproperty correlations in plasma sprayed yttria-stabilized zirconia coatings�, Mater. Sci. & Eng. A, 359 (2003), pp. 100-111.
  4. M. L. Lau, J. He, R. Schweinfest, M. Ruhle, C. G. Levi and E. J. Lavernia, “Synthesis and characterization of nanocrystalline Cu-Al coatings”, Mater. Sci. & Eng. A, 347 (2003), pp. 231-242.
  5. T. Chraska and A. H. King, “Effect of Different Substrate Conditions upon Interface with Sprayed Zirconia- a TEM Study”, Surface & Coatings Technology, 157 (2002), pp. 238-246.
  6. T. Chraska and A. H. King, “Transmission electron microscopy study of rapid solidification of plasma sprayed zirconia - part I. First splat solidification”, Thin Solid Films, 397 (2001), pp. 30-39.
  7. T. Chraska and A. H. King, “Transmission electron microscopy study of rapid solidification of plasma sprayed zirconia - part II. Interfaces and subsequent splat solidification”, Thin Solid Films, 397 (2001), pp. 40-48.
  8. R. Goswami, H. Herman, S. Sampath, X. Jiang, Y. Tian and G. Halada, “Plasma sprayed Mo-Mo oxide nanocomposites: synthesis and characterization”, Surface & Coatings Technology, 141 (2001), pp. 220-226.
  9. X. Y. Jiang, S. Sampath and H. Herman, “Grain morphology of molybdenum splats plasma-sprayed on glass substrates”, Mater. Sci. & Eng. A, 299 (2001), pp. 235-240.
  10. S. Rangarajan and A. H. King, “Non-destructive evaluation of delamination in ceramic thin films on metal substrates by scanning electron microscopy”, Thin Solid Films, 385 (2001), pp. 22-28.
  11. T. Chraska, A. H. King and C. C. Berndt, “On the size-dependent phase transformation in nanoparticulate zirconia”, Mater. Sci. & Eng. A, 286 (2000), pp. 169-178.114A.
  12. Kulkarni, S. Sampath, A. Goland, H. Herman and B. Dowd, “Computed microtomography studies to characterize microstructure-property correlations in thermal sprayed alumina deposits”, Scripta Materialia, 43 (2000), pp. 471-476.
  13. G.Montavon, C.Coddet, C.C.Berndt and S.H.Leigh, “Microstructural Index to Quantify Thermal Spray Deposit Microstructures Using Image Analysis”, J. Thermal Spray Tech., 7 (1998), pp. 229.
Proceedings
  1. Y.Wu, M.Qu, L.Gianuzzi, S.Sampath and A.Gouldstone, Focused Ion Beam Study of Ni5Al Single Splat Microstructure, Mat. Res.Soc.Symp.Proc. Vol 983 (2007) 098LL04-04-KK04-04.
  2. Y.Wu, M.Qu, L.Gianuzzi, S.Sampath and A.Gouldstone, Focused Ion Beam Study of Ni5Al Single
    Splat Microstructure, Mat. Res.Soc.Symp.Proc. Vol 983 (2007) 098LL04-04-KK04-04.
  3. Y. Tan, J. P. Longtin, S. Sampath, “Modeling Thermal Conductivity of Thermal Spray Coatings: Comparing Predictions to Experiments,” Thermal Spray Conference & Expositions (ITSC) Seattle, Washington, 2006, Electronic Proceedings.
  4. S. Deshpande, S. Sampath, P. I. Gouma and H. Herman, “Microstructural Characterization across Length Scales of Thermal Sprayed Ni-5wt. %Al Coatings”, in B. R. Marple, ed., Thermal Spray: Advancing the Science and Applying the Technology (ITSC 2003), ASM International, Material Park, OH, USA, Orlando, Florida, USA, 2003, p1419.
  5. L.Sun, C.C.Berndt, A.Kucuk, R.S.Lima, and K.A.Khor, “Surface Characterization of Plasma Sprayed Hydroxyapatite Coatings”, 24th Annual Cocoa Beach Meeting Proceeding, Cocoa Beach, Florida, January 23- 30, 2000. Am. Ceramic Soc., Vol. 21, Part 4, 2000, p. 251-258.
  6. H.Boukari, A.J.Allen, G.G.Long, J.Ilavsky, J.Wallace, C.C.Berndt, and H.Herman, “The Role of Feedstock Particles Size on the Microstructural Behavior of Plasma-Sprayed YSZ Deposits During Annealing”, Proc. of UTSC '99, Germany. 1999, p799.
  7. L.Jacobs, M.M.Hyland, J.Gutleber and S.Sampath, “Study of the Decarburisation Reactions and Phase Transformations of a WC-Co Powder”, Proc. of UTSC '99, Germany. 1999, p439.
  8. R.A.Denoirjean, A.Vardelle, G.-X.Wang and S.Sampath, “Nucleation and Phase Selection in Plasma- Sprayed Al2O3”, Proc. of the 15th ITSC, Vol. 1, Nice, France, May, 1998, p407.
  9. J.Ilavsky, G.G.Long and A.J.Allen, “Evolution of the Microstructure of Plasma-Sprayed Deposits During Heating”, Proc. of the 15th ITSC, Vol. 2, Ed. C.Coddet, Nice, France, May, 1998, p1641.
  10. X.Y.Jiang, S.Sampath, A.Vardelle, M.Vardelle and P.Fauchais, “Microstructure Development During Plasma Spraying of Molybdenum, Part II: Coating Microstructure and Properties”, Proc. of the 15th ITSC, Vol. 1, Ed. C.Coddet, Nice, France, May, 1998, p735.
  11. A.Vardelle, G.X.Wang, X,Y.Jiang and S.Sampath, “Microstructure Development During Plasma
    Spraying of Molybdenum, Part I: Splat Solidification”, Proc. of the 15th ITSC, Vol. 1, Ed. C. Coddet, Nice, France, May, 1998, p729.

Advance Characterization using X-Ray and Nutron Scattering       (T.O.C.)

Journals
  1. Y.Li, W.Chi, S.Sampath, A.Goland, H.Herman, J.Ilavsky and A.Allen, Process controlled plasma sprayed yttria stabilized zirconia coatings: New insights from ultra small angle X-ray scattering, J.American Ceramic Society 92(2) (2009) 491-500.
  2. A. Kulkarni, H. Herman, A. Goland, A. Allen, J. Ilavsky, G. Long, F. DeCarlo, “Advanced microstructural characterization of plasma-sprayed zirconia coatings over extended length scales”, J. Therm. Spray. Technol., 14 (2), (2005) pp.239-250.
  3. 127Q.Y. Yan (Alex), R. J. Gambino, S. Sampath, “Neutron diffraction and Ferromagnetic resonance study on Plasma-sprayed MnZn ferrite films”, J. Applied Physics, 97 (2005).
  4. S. Deshpande, A. Kulkarni, S. Sampath and H. Herman, “Application of image analysis for characterization of porosity in thermal spray coatings and correlation with small-angle neutron scattering”, Surface & Coatings Technology 187 (2004), pp. 6-16.
  5. A. Kulkarni, A. Goland, H. Herman, A. J. Allen, J. Ilavsky, G. Long, C. A. Johnson and J. A. Ruud, “Microstructure-property Correlations in Industrial Barrier Coatings”, Journal of American Ceramic Society, 87 (2004), pp. 1294-1300.
  6. A. Kulkarni, H. Herman, J. Almer, U. Lienert, D. Haeffner, J. Ilavsky, S. Fang and P. Lawton, “Depthresolved Porosity Investigation of EB-PVD Thermal Barrier Coatings Using High-energy X-rays”, Journal of the American Ceramic Society, 87 (2004), pp. 268.
  7. A. Kulkarni, H. Herman, F. DeCarlo and R. Subramanian, “Microstructural Characterization of Electron Beam-Physical Vapor Deposition Thermal Barrier Coatings through High-Resolution Computed Microtomography”, Metallurgical and Materials Trans, 35A (2004), pp. 1945-1951.
  8. N. Margadant, J. Neuenschwander, S. Stauss, H. Kaps, J. Matejicek , G. Rössler and A. Kulkarni, “Impact of Probing Volume from Mesoscopic-to Macroscopic-Scale on Elastic Modulus Values of Thermally Sprayed Metallic Coatings Determined Different Mechanical Methods”, Surface & Coatings Technology (2004).
  9. A. Kulkarni, Z. Wang, T. Nakamura, S. Sampath, A. Goland, H. Herman, J. Allen, J. Ilavsky, G. Long, J. Frahm and R. W. Steinbrech, “Comprehensive microstructural characterization and predictive property modeling of plasma-sprayed zirconia coatings”, Acta Materialia, 51 (2003), pp. 2457-2475.
  10. H. Boukari, A. J. Allen, G. G. Long, J. Ilavsky, J. S. Wallace, C. C. Berndt and H. Herman, “Small-angle neutron scattering study of the role of feedstock particle size on the microstructural behavior of plasma-sprayed yttria-stabilized zirconia deposits”, Journal of Materials Research, 18 (2003), pp. 624-634.
  11. Y. L. Soo, G. Kioseoglou, S. Kim, Y. H. Kao, P. Sujatha, J. Parise, R. J. Gambino and P. Gouma, “Local Enviroment Surrounding Magnetic Impurity Atoms in a Structural Phase Transition Co-doped TiO2 Nanocrystal Ferromagnetic Semiconductors”, Applied Physics Letters, 81 (2002), pp. 655-657.
  12. H. Sitepu, S. J. K., H. J. Prask, M. D. Vaudin and S. Sampath, “Crystallographic Preferred Orientation Phase Fraction of Plasma Spray Coatings by means of Neutron X-ray Diffractions (reprinted)”, Journal of Indonesian Physical Society, A5 (2002), pp. 0212.
  13. A. J. Allen, G. G. Long, H. Boukari, J. Ilavsky, A. Kulkarni, S. Sampath, H. Herman and A. N. Goland, “Microstructural characterization studies to relate the properties of thermal-spray coatings to feedstock and spray conditions”, Surface and Coatings Technology, 146-147 (2001), pp. 544-552.
  14. A. J. Allen, J. Ilavsky, G. G. Long, J. S. Wallace, C. C. Berndt and H. Herman, “Microstructural characterization of yttria-stabilized zirconia plasma-sprayed deposits using multiple small-angle neutron scattering”, Acta Materialia, 49 (2001), pp. 1661-1675.
Proceedings
  1. B. Saruhan, A. Flores Renteria, A. Kulkarni, F. DeCarlo and J. Ilavsky, “Characterization of Y2O3- doped La2Zr207 based EB-PVD thermal barrier coatings using X-ray microtomography (CMT) and small-angle neutron diffraction (SAND)”, Ceramics Science and Engineering, Cocoa Beach Florida, 2004, Electronic
  2. T. A. Dobbins, A. J. Allen, J. Ilavsky, G. G. Long, P. R. Jemian, A. Kulkarni and H. Herman, “Recent Development in Characterization of Anisotropic Void Populations in Industrial Thermal Barrier coatings Using Ultra-small-angle X-ray Scattering”, in M. Waltraud, K. and L. Hau Tay, eds., 27th International Cocoa Beach Conference on Advanced Ceramics and Composites, Ceramic Science and Engineering Proceedings, Cocoa Beach, Florida, USA, 2003, p.517-524.
  3. A. Kulkarni and H. Herman, “Microstructure-property Correlations in Industrial Thermal Barrier
    Coatings”, in M. Waltraud, K. and L. Hau Tay, eds., 27th International Cocoa Beach Conference on Advanced Ceramics and Composites, Ceramic Science and Engineering Proceedings, Cocoa Beach, Florida, USA, 2003, p.535-542.
  4. N. Margadant, S. Siegmann, T. Keller, W. Wagner, P. Scherrer and A. Kulkarni, “Insights to Spraying Conditions, Microstructure and Properties and Their Statistical Correlations for Different Thermal Spraying Processes Using Complementary Characterization Methods”, in C. Moreau and B. R. Marple, eds., Thermal Spray: Advancing the Science and Applying the Technology (ITSC 2003), ASM International, Materials Park, OH, USA, 2003, p1053
  5. A. J. Allen, G. G. Long, J. Ilavsky, A. Kulkarni, S. Sampath, H. Herman and A. N. Goland, “Small- Angle Scattering Analysis of Porosity in Thermal Spray and EB-PVD Thermal Barrier Coatings”, International Ceramic Congress, Florence, Italy, 2002, Electronic proceedings
  6. A. Kulkarni, S. Sampath, H. Herman and A. Goland, “Porosity -Thermal Conductivity Relationships in Plasma Sprayed Zirconia 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, p1061.
  7. A.J.Allen, G.G.Long, J.Ilavsky, J.Wallace, C.C.Berndt, and H.Herman, “Microstructural Changes in YSZ Deposits During Annealing”, Proc. of UTSC 99, Germany. 1999, p228.

Residual Stress       (T.O.C.)

Journals
  1. Shinoda K, Colmenares-Angulo J, Valarezo A, Sampath S (2012) Effect of Deposition Rate on the Stress Evolution of Plasma-Sprayed Yttria-Stabilized Zirconia. J Therm Spray Techn 21:1224-1233.
  2. 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, Volume 55, Issue 3, February 2007, Pages 857-866
  3. V.Luzin, H.J.Prask, T.G.Herold and S.Sampath, “Use of Neutron Diffraction Stress Measurements in Thin and Thick Thermal Sprayed Coatings”, IFHTSE 2007, in press
  4. L. Li, A. Vaidya, T. Streibl, S. Sampath, A. Gouldstone, V. Luzin, and H. Prask, “Residual stress
    analysis of thermal sprayed molybdenum deposit”, Materials Science Forum, 490-491 (2005), pp. 607-612.
  5. J. Matejicek and S. Sampath, “In situ measurement of residual stresses and elastic moduli in thermal sprayed coatings - Part 1: apparatus and analysis”, Acta Materialia, 51 (2003), pp. 863-872.
  6. J. Matejicek, S. Sampath, D. Gilmore and R. Neiser, “In situ measurement of residual stresses and elastic moduli in thermal sprayed coatings - Part 2: processing effects on properties of Mo coatings”, Acta Materialia, 51 (2003), pp. 873-885
  7. J. Matejicek, S. Sampath, T. Gnaupel-Herold and H. J. Prask, “Residual stress in sprayed Ni+5%Al coatings determined by neutron diffraction”, Applied Physics A, 74 (2002), pp. S1692-S1694.151J.
  8. J. Matejicek and S. Sampath, “Intrinsic residual stresses in single splats produced by thermal spray processes”, Acta Materialia, 49 (2001), pp. 1993-1999.
  9. J.Matejicek, S.Sampath, P.C.Brand and H.J.Prask, “Quenching, Thermal and Residual Stress in Plasma Sprayed Deposits: NiCrAlY and YSZ Coatings”, Acta Materialia, 47(1999), pp. 607.153
  10. O.Kesler, J.Matejicek, S.Sampath, S.Suresh, T.Gnaeupel-Herold, P.C.Brand and H.J.Prask,
    “Measurement of Residual Stress in Plasma-Sprayed Metallic Ceramic and Composite Coatings”, Mater. Sci.& Eng. A 257 (1998), pp. 215.
  11. G.Qian, T.Nakamura and C.C.Berndt, “Effects of Thermal Gradient and Residual Stresses on Thermal Barrier Coating Fracture”, Mechanics of Materials, 27 (1998), pp. 91.
  12. J. Matejicek, S. Sampath and J. Dubsky, “X-Ray Residual Stress Measurement in Metallic and Ceramic Plasma Sprayed Coatings”, J. Thermal Spray Tech., 7(1998), pp. 489.
Proceedings
  1. A.Valarezo, J.Japson, A.Gouldstone and S.Sampath, “Residual Stress Development on Metallic coatings by HVOF Spraying”, Proceedings of International Thermal Spray Conference, China, May 2007.
  2. L. Li, A. Gouldstone and S. Sampath, “Intrinsic Properties of Thermal Sprayed Single Splats Substrates”, Thermal Spray Solutions: Advances in Technology and application (ITSC 2004), Osaka, Japan, 2004, Electronic proceedings.
  3. J. Matejicek, S. Sampath, T. Gnaeupol-Herold and H. Prask, “Processing effects on residual stresses in Ni-5%Al coatings – Comparison of differenct methods”, in C. C. Berndt, ed., Thermal Spray: Surface Engineering via Applied Research (ITSC 2000), ASM International, Materials Park, OH, USA, Montreal, Quebec, Canada, 2000, p351.
  4. O. Kesler, J. Matejicek, S. Sampath and S. Suresh, “Measurement of residual stress in plasma-sprayed composite coatings with graded and uniform compositions”, Functionally Graded Materials 1998, Dresden, p389.
  5. J.Matejicek, S.Sampath and J.Dubsky, “Residual Stress Measurement in Plasma Sprayed Coatings by XRay Diffraction”, Thermal Spray: A United Forum for Scientific and Technological Advances, Published by ASM Intl., Ed. C.C.Berndt, September, 1997, p855.
  6. J.Matejicek, S.Sampath, P.C.Brand and H.J.Prask, “Neutron Diffraction Residual Stress Measurement on Thermally Sprayed Coatings”, Thermal Spray: A United Forum for Scientific and Technological Advances, Published by ASM Intl, Ed. C.C.Berndt, September, 1997, p861.

Mechanical and Thermal Properties       (T.O.C.)

Journals
  1. Dwivedi G, Nakamura T, Sampath S (2011) Controlled Introduction of Anelasticity in Plasma-Sprayed Ceramics. Journal of the American Ceramic Society 94:S104-S111.
  2. Y.Tan. J.Longtin, S.Sampath and D.Zhu, Temperature gradient effects in thermal barrier coatings, An investigation through modeling, high heat flux test and embedded sensor, J. Am.Ceramic Society, 2010
  3. Y.Tan, A.Shyam, W.B.Choi, E. Lara-Curzio and S.Sampath, Determination of anisotropic elastic properties of plasma sprayed ceramic and metallic coatings by resonant ultrasound spectroscopy, Acta Materialia, submitted. Volume 58, Issue 16, September 2010, Pages 5305–5315
  4. Y.Tan. J.Longtin, S.Sampath and D.Zhu, Temperature gradient effects in thermal barrier coatings, An investigation through modeling, high heat flux test and embedded sensor, J. Am.Ceramic Society, 2010
  5. Tan Y, Shyam A, Choi WB, Lara-Curzio E, Sampath S (2010) Anisotropic elastic properties of thermal spray coatings determined via resonant ultrasound spectroscopy. Acta Mater 58:5305-5315.
  6. Y.Tan, J.Longtin, S.Sampath and H.Wang, Effect of starting microstructure on thermal properties of as-sprayed and thermally exposed plasma sprayed YSZ coatings, J.American Ceramic Society, 2008, 92(3) (2009) 710-716.
  7. Y.Liu, T.Nakamura, A.Valarezo, G.Dwivedi and S.Sampath, Anelastic behavior of plasma sprayed zirconia coatings, J.American Ceramic Society, 91[12] (2008) 4036-4043
  8. W.B.Choi, L.Prchlik, S.Sampath and A.Gouldstone, Indentation Stress-Strain of Thermal Spray Coatings, J.Thermal Spray Technology, 18(1) (2008) 58-64.
  9. W.B.Choi, Y.Wu, S.Sampath and A.Gouldstone, Modified indentation technique to probe inelasticity in Ni-5%Al coatings from different processes, J.Thermal Spray Tech. 18(1) (2008) 65-74
  10. J.M.Guilemany, N.Cinca, J.Fernandez and S.Sampath, Erosion, abrasive and friction wear behavior of iron aluminide coatings sprayed by HVOF, J.Thermal Spray Tech. 17(5-6) (2008) 762.
  11. Y.Tan, J.Longtin, S.Sampath and H.Wang, Effect of starting microstructure on thermal properties of as-sprayed and thermally exposed plasma sprayed YSZ coatings, J.American Ceramic Society, 2008
  12. Y.Liu, T.Nakamura, G.Dwivedi, A.Valarezo, and S.Sampath, Anelastic behavior of plasma sprayed zirconia coatings, J.American Ceramic Society, 91[12] (2008) 4036-4043.
  13. W.B.Choi, Y.Wu, S.Sampath and A.Gouldstone, Modified indentation technique to probe inelasticity in Ni-5%Al coatings from different processes, J.Thermal Spray Tech. (2008) in press
  14. W.B.Choi, L.Prchlik, S.Sampath and A.Gouldstone, Indentation of metallic and cermet thermal spray coatings. J.Thermal Spray Tech. 2008, in press
  15. V.Cannillo, F.Pierli, S.Sampath and C.Siligardi, Thermal and physical characterization of apatite,/wollastonite bioactive glass ceramics, J.European Ceramics Society, 2008, in press
  16. V.Luzin, A.Valarezo and S.Sampath, ‘Through-thickness residual stress measurements in metal and ceramic spray coatings by neutron diffraction’, Materials Science Forum Vols 571-572 (2008) 315-320.
  17. W.Chi, S.Sampath and H.Wang, “Comparison of the thermal transport property measurements of thermally sprayed coatings by the laser and xenon flash techniques”, J.Thermal Spray Technology, 16(3) (2007) 444-448.
  18. W.Chi, S.Sampath and H.Wang, Microstructure-thermal conductivity relationships in plasma sprayed yttria stabilized zirconia, J. American Ceramic Society, in press, 2007
  19. Y.Liu, T.Nakamura, V.Srinivasan, A.Vaidya, A.Gouldstone and S.Sampath, “Nonlinear elastic
    properties of plasma sprayed zirconia coatings and associated relationships to processing conditions”, Acta Materialia, 2007,55 (2007) 4667-4678.164
  20. 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.
  21. L. Prchlik and S.Sampath, “Effect of microstructure of thermally sprayed coatings on friction and wear response under lubricated and dry sliding conditions Wear 262 (2007)) 11-23.
  22. Y.Tan, J.P.Longtin, S.Sampath, ““Modeling Thermal Conductivity of Thermal Spray Coatings: Comparing Predictions to Experiments,” Journal of Thermal Spray Technology, 15(4) (2006) 545-552.
  23. W.Chi, S.Sampath and H.Wang, “Ambient and high-temperature thermal conductivity of thermal spray coatings”, Journal of Thermal Spray Technology, 15(4) (2006) 773-778.
  24. N.Challocoop, L.Li and A.Gouldstone, “Errors in resolved modulus during nano-indentation of hard films on soft substrates: A computational study” Materials Science and Engineering A 423(2006)36-40.
  25. L. Prchlik, “Input error sensitivity of hardness and elastic modulus evaluated from indentation loaddisplacement records by Oliver and Pharr method”, J. Materials Sci., 39 (2004), pp. 1185-1193.
  26. Y. Gu, T. Nakamura, L. Prchlik, S. Sampath and J. Wallace, “Micro-indentation and inverse analysis to characterize elastic-plastic graded materials”, Mater. Sci. & Eng. A, 345 (2003), pp. 223-233.
  27. L. Prchlik, J. Pisacka and S. Sampath, “Deformation and strain distribution in plasma sprayed nickelaluminum coating loaded by a spherical indenter”, Mater. Sci. & Eng. A, 360 (2003), pp. 264-274.
  28. Z. Wang, A. Kulkarni, S. Deshpande, T. Nakamura and H. Herman, “Effects of pores and interfaces on effective properties of plasma sprayed zirconia coatings”, Acta Materialia, 51 (2003), pp. 5319-5334.
  29. Z. Wang and T. Nakamura, “Simulations of Crack Propagation in Elastic-Plastic Graded Materials”, Mechanics of Materials, 36 (2003), pp. 601-622.
  30. A. H. Dent, S. DePalo and S. Sampath, “Examination of the wear properties of HVOF sprayed
    nanostructured and conventional WC-Co cermets with different binder phase contents”, J. Thermal Spray Technology, 11 (2002), pp. 551-558
  31. J. Alcala, F. Gaudette, S. Suresh and S. Sampath, “Instrumented spherical micro-indentation of plasmasprayed coatings”, Mater. Sci. & Eng. A, 316 (2001), pp. 1-10.
  32. M. Dao, N. Chollacoop, K. J. Van Vliet, T. A. Venkatesh and S. Suresh, “Computational modeling of the forward and reverse problems in instrumented sharp indentation”, Acta Materialia, 49 (2001), pp. 3899-3918.
  33. R. S. Lima, A. Kucuk, and C. C. Berndt, “Evaluation of Microhardness and Elastic Modulus of Thermally Sprayed Nanostructured Zirconia Coatings”, Surf. & Coat. Tech., 135 (2001), pp. 166-172.
  34. T. Nakamura and Z. Wang, “Computational simulations of crack propagation in porous materials”, Journal of Applied Mechanics-Transactions of the ASME, 68 (2001), pp. 242-251.
  35. L. Prchlik, J. Gutleber and S. Sampath, “Deposition and properties of high-velocity-oxygen-fuel and plasma-sprayed Mo-Mo2C composite coatings”, J. Thermal Spray Technology, 10 (2001), pp. 643-655
  36. L. Prchlik, S. Sampath, J. Gutleber, G. Bancke and A. W. Ruff, “Friction and wear properties of WCCo and Mo-Mo2C based functionally graded materials”, Wear, 249 (2001), pp. 1103-1115.
  37. A.Kucuk, C.C.Berndt, U.Senturk, R.S.Lima, and C.R.C.Lima, “Influence of Plasma Spray Parameters on the Mechanical Properties of Yttria Stabilized Zirconia Coatings I: Four Point Bend Test”, Mater. Sci. & Eng. A, 284 (2000), pp. 29-40.
  38. A.Kucuk, C.C.Berndt, U.Senturk, R.S.Lima, and C.R.C.Lima, “Influence of Plasma Spray Parameters on the Mechanical Properties of Yttria Stabilized Zirconia Coatings II: Acoustic Emission Response”, Mater. Sci. & Eng. A, 284 (2000), pp. 41-50.
  39. T. Nakamura, G. Qian and C. C. Berndt, “Effects of pores on mechanical properties of plasma-sprayed ceramic coatings”, J American Ceramic Soc., 83 (2000), pp. 578-584.
  40. T. Nakamura, T. Wang and S. Sampath, “Determination of properties of graded materials by inverse analysis and instrumented indentation”, Acta Materialia, 48 (2000), pp. 4293-4306
  41. U.Senturk, R.S.Lima, C.R.C.Lima, C.C.Berndt, “Deformation of Plasma Sprayed Thermal Barrier
    Coatings”. J. Eng. for Gas Turbines and Power. 122 (2000), pp. 387-392.
  42. 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
  43. A.E.Giannakopoulos, and S.Suresh, “Determination of Elastoplastic Properties of Materials by
    Instrumented Sharp Indentation”, Scripta Materialia, 40(1999), pp. 1191.
  44. S.Suresh, M.Olsson, A.E.Giannakopoulos, N.P.Padture and J.Jitcharoen, “Engineering the Resistance to Sliding-Contact Damage Through Controlled Gradients in Elastic Properties at Contact Surfaces”, Acta Materialia, 47(1999), pp. 3915.
  45. S.Usmani and S.Sampath, “Time-Dependent Friction Response of Plasma Sprayed Molybdenum”, Wear , 225-229(1999)1131.191
  46. 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
  47. J.Jitcharoen, N.P.Padture, A.E.Giannakopoulos, and S.Suresh, “Hertzian-Crack Suppression In Ceramics With Elastic-Modulus-Graded Surface”, J. American Ceramic Soc., 81(1998) 2301.
  48. A.J.Slifka, B.J.Filla, J.M.Phelps, G.Bancke and C.C.Berndt, “Thermal Conductivity of a Zirconia
    Thermal Barrier Coating”, J. Thermal Spray Tech., 7 (1998), pp. 43.
  49. C.K.Lin, S.H.Leigh and C.C.Berndt, “Acoustic Emission Responses of Plasma-Sprayed Alumina-3% Titania Deposits”, Thin Solid Films 310 (1997), pp. 108.
Proceedings
  1. W.Chi, V.Srinivasan, A.Sharma, S.Sampath and R.Gambino, “Processing-microstructure-property
  2. R.Musalek, J.Matejicek, V.Pejchal, E.Mari, A.Valarezo and S.Sampath, Influence of pores and cracks on mechanical behavior of thermally sprayed ceramics, ITSC 2010, Singapore, ASM International
  3. J.M.Guilemany, N.Cinca, J.Fernandez and S.Sampath, Erosion, Abrasive and Friction Wear Behavior
  4. Y.Liu, T.Nakamura, V.Srinivasan, A.Gouldstone and S.Sampath, “Mechanisms underlying anelastic properties of thermal spray coating, Proceedings of International Thermal Spray Conference, China, May 2007.
  5. W.Chi, S.Sampath and H.Wang, “Application of Xenon flash technique for investigation of stability and reliability of plasma sprayed yttria-stabilized zirconia coatings, Proceedings of International Thermal Spray Conference, Beijing, China, May 2007.
  6. A.Valarezo, J.Japson, A.Gouldstone and S.Sampath, Residual stress development in metallic coatings by HVOF spraying, Proceedings of International Thermal Spray Conference, China, May 2007.
  7. Y.Liu, T.Nakamura, V.Srinivasan, A.Gouldstone and S.Sampath, Optimizing nonlinear properties of thermal sprayed coatings through processing parameters, Mat.Res.Soc.Symp.Proc, 2006
  8. Y.Tan, A.Sharma, J.P.Longtin and S.Sampath, Image based modeling for assessing thermal conductivity of thermal spray coatings at ambient and high temperature. IMECE2006-15972, ASME 2006.
  9. M.Qu, Y.Wu, A.Gouldstone, “Simulations of Curvature Evolution Splat-Substrate Systems under
    Thermal Cycling,” Thermal Spray Conference & Expositions (ITSC) Seattle, Washington, 2006, Electronic Proceedings.
  10. J. H. Kim, A. Gouldstone , N. Chollacoop , "Effects of Coating-Substrate Properties and Adhesion on Indentation Results," Thermal Spray Conference & Expositions (ITSC) Seattle, Washington, 2006, Electronic Proceedings.
  11. W. Choi, S. Sampath, A..Gouldstone, “Inelastic Deformation of Metallic Coatings: Measurement and Analysis”, Thermal Spray Conference & Expositions (ITSC) Seattle, Washington, 2006, Electronic Proceedings.
  12. W.Chi, S. Sampath, H. Wang, “Ambient and High Temperature Thermal Conductivity of Thermal Sprayed Coatings”, Thermal Spray Conference & Expositions (ITSC) Seattle, Washington, 2006, Electronic Proceedings.
  13. T. Nakamura and Y. Gu, “Measurements of elastic-plastic anisotropic properties of thermally sprayed coatings using nano-indenters and inverse analysis technique”, Thermal Spray Solutions: Advances in Technology and application (ITSC 2004), Osaka, Japan, 2004, Electronic copy
  14. T. Nakamura and S. Sampath, “Thermally Sprayed FGM and Determination of its property by Inverse Analysis, FGM 2000”, Ceramic Transations, eds. K. Ichikawa, Kluwer Academic Publishers, 2001, p.86- 91.
  15. S.DePalo, M.Mohanty, H.Marc-Charles, M.Dorfman, “Fracture Toughness of HVOF Sprayed WC-Co Coatings”, ITSC 2000, Montreal, Canada, p245-250.
  16. A.Kucuk, C.C.Berndt, U.Senturk, R.S.Lima and C.R.C.Lima, “Deformation Characteristics of Plasma Sprayed Thermal Barrier Coatings”, 24th Annual Cocoa Beach Meeting Proceeding, Cocoa Beach, Florida, January 23-30, 2000. Am. Ceramic Soc., Vol. 21, Part 4, 2000, p. 681-690.
  17. C.R.C.Lima, U.Senturk, R.S.Lima, and C.C.Berndt, “Thermal Conductivity Behavior of Sol-Gel Post Treated Thermal Barrier Coatings”, Thermal Spray – Surface Engineering via Applied Research, Ed. C. C. Berndt, ASM International, Materials Park, OH, USA, 2000, p. 1057-1060.
  18. A.Kucuk, C.C.Berndt, U.Senturk and R.S.Lima, “Characterization of the Mechanical Properties of
    TBCs via a Taguchi Experimental Design”. ITSC 2000, Montreal, Canada, 2000, p1211-1217.
  19. L. Prchlik, A. Vaidya, S. Sampath and H. Herman, “Damage Tolerant Tribological Coatings Based on Thermal Sprayed FGMs”, Ceramic Transations, Functionally Graded Materials 2000, American Ceramic Society, Estes Park, Colorado, USA, 2000, p.111
  20. J.A. Brogan, C.C. Berndt, A. Claudon and C. Coddet, “Mechanical Properties of Spray-Formed
    Composite Structures”, Proc. of the 15th ITSC, 2 (1998) 1173.
  21. S.DePalo, S.Usmani, S.Sampath, M.Besser and D.Sordelet, “Friction and Wear Behavior of Thermally Sprayed Al-Cu-Fe Quasicrystalline Coatings”, Thermal Spray: A United Forum for Scientific and Technological Advances, Published by ASM Intl, Ed. C.C.Berndt, September, 1997, p135.
  22. J. Gutleber, S. Sampath and S.Usmani “Processing and Thermal Cycling Effects on the Erosion
    Behavior of Thermal Barrier Coatings”, Thermal Spray: A United Forum for Scientific and Technological Advances, Published by ASM Intl., Ed. C.C.Berndt, September, 1997, p285.
  23. S.H.Leigh, C.C.Berndt, M.K.Ferber, L.Riester, “Nanoindentation Study of Thermal Spray Deposits”, Thermal Spray: A United Forum for Scientific and Technological Advances, Published by ASM Intl., Ed. C.C.Berndt, September, 1997, p723.

Spray Synthesis       (T.O.C.)

Journals
  1. V.Cannillo, F.Pierli, S.Sampath and C.Siligardi, Thermal and physical characterization of apatite,/wollastonite bioactive glass ceramics, J.European Ceramics Society, 29(2009) 611-619.
  2. V.Cannillo, J.Colmenares-Angulo, L.Lusvarghi, F.Pierli, S.Sampath, Invitro characterization of plasma sprayed apatite/wollastonite glass-ceramic biocoatings on titanium alloys, J.European Ceramics Society, 29(2009)1665-1677.
  3. B.G.Ravi, A.S.Gandhi, X.Z.Guo, J.Margolies and S.Sampath, “Liquid precursor plasma spraying of functional materials: A case study for yttrium aluminum garnet (YAG), J.of Thermal Spray Tech., 2007, 17(1) (2008) 82.
  4. B.G.Ravi, S.Sampath, R.Gambino, P.S.Devi and J.B.Parise, “Plasma spray synthesis from precursors: Progress, issues and considerations”, Journal of Thermal Spray Technology, 15(4) (2006) 701-707.
  5. X. Z. Guo, B. G. Ravi, P. S. Devi, J. C. Hanson, J. Margolis, R. J. Gambino, J. Parise and S.Sampath, “Synthesis of Yttrium Iron Garnet (YIG) by Citrate-nitrate Gel Combustion and Precursor Plasma Spray Process,” J. Magnetism and Magnetic Materials,295, (2005), pp.145-154.
  6. X. Z. Guo, B. G. Ravi, Q.Y. Yan, R.J. Gambino, S.Sampath, J. Margolies, P. S. Devi, J. B. Parise, and, “Phase evolution and magnetic properties of precursor plasma sprayed yttrium iron garnet coatings”, Ceramic International, 32, (2005) pp.61-66.
  7. A. Kulkarni, S. Sampath, A. Goland, H. Herman, A. Allen, J. Ilavsky and W. Gong, “Potential of plasma spraying coatings for next-generation membranes”, Topics in Catalysis, 32 (2005), pp. 241-249.
  8. T. A. Schaedler, W. Francillon, A. Gandhi, C. Grey, S. Sampath, and C. Levi, “Phase evolution in the YO1.5-TiO2-ZrO2 system around the pyrochlore region”, Acta Materialia, 53 (2005), pp. 2957-2968.
  9. X. Z. Guo, P. S. Devi, B. G. Ravi, J. B. Parise, S. Sampath and J. C. Hanson, “Phase evolution of yttrium aluminium garnet (YAG) in a citrate-nitrate gel combustion process”, Journal of Materials Chemistry, 14 (2004), pp. 1288-1292.
  10. M. H. Yu, P. S. Devi, L. H. Lewis, S. Sampath, J. B. Parise and R. J. Gambino, “Novel synthesis and magnetocaloric assessment of functional oxide perovskites”, Mater. Sci. & Eng. B, 97 (2003), pp. 245- 250.
  11. P. S. Devi, Y. Lee, J. Margolis, J. B. Parise, S. Sampath, H. Herman and J. C. Hanson, “Comparison of citrate-nitrate gel combustion and precursor plasma spray processes for the synthesis of yttrium aluminum garnet”, J. Materials Research, 17 (2002), pp. 2846-2851.
  12. P. S. Devi, J. Margolis, J. B. Parise, C. P. Grey, S. Sampath, H. Herman and H. D. Gafney, “Single-step deposition of Eu-doped Y2O3 phosphor coatings through a precursor plasma spraying technique”, J. Materials Research, 17 (2002), pp. 2771-2774.
  13. R. Goswami, H. Herman, S. Sampath, J. Parise, Y. M. Zhu and D. Welch, “Shock-induced
    transformations in hexagonal boron nitride by high-velocity thermal spray”, Journal of the American Ceramic Society, 85 (2002), pp. 2437-2443.
  14. P. S. Devi, J. Margolies, H. Liu, C. P. Grey, S. Sampath, H. Herman and J. Parise, “Yttrium Aluminum Garnet (YAG) Films through a precursor plasma spraying technique”, J. Am. Cer. Soc., 84(8), (2001), pp.1906.
  15. S. D. Parukuttyamma, J. Margolis, H. M. Liu, C. P. Grey, S. Sampath, H. Herman and J. B. Parise, “Yttrium aluminum garnet (YAG) films through a precursor plasma spraying technique”, Journal of the American Ceramic Society, 84 (2001), pp. 1906-1908.
  16. R. Goswami, H. Herman, S. Sampath and J. B. Parise, “Diamond synthesis by high-velocity thermal spray: The laboratory analogue of a meteorite impact”, Journal of Materials Research, 15 (2000), pp. 25-28.
  17. R.Goswami, J.B.Parise, S.Sampath and H.Herman, “Shock Synthesis of Nanocrystalline Si by Thermal Spraying”, J. Materials Res. 14(1999), pp. 3489.
Proceedings
  1. B.G.Ravi, S. Sampath, R. Gambino P.S. Devi, J.B. Parise, “Plasma Spray Synthesis from Precursors: Progress, Issues and Considerations,” Thermal Spray Conference & Expositions (ITSC) Seattle, Washington,6, Electronic Proceedings.
  2. T. Schaedler, S. Girma, A.S. Gandhi, S. Sampath and C.G. Levi, Metastable phase evolution in TiO2- YO3/2-ZrO2, Mater. Res. Soc. Symp. Proc. Vol. 835 (2005) K3.11.1
  3. P. Sujatha, J. Margolies, H. Liu, J. B. Parise, C. P. Grey, S. Sampath, P. Gouma and H. Herman,
    “Deposition and Characterization of Y3Al5O12(YAG) Films and Powders by Plasma Spray Synthesis”, Materials Research Society, Symposium Proceeding, 2001, Vol. 658, GG6.29.1.
  4. P. S. Devi, J. Margolis, H. M. Liu, J. Parise, C. P. Grey, S. Sampath, P. Gouma and H. Herman,
    “Deposition and Characterization of YAG Films and Powders by Plasma Spray Synthesis”, Material Research Society Proceedings, Vol.658, 2000, Eds. Geselbracht M.J., Greedan J.E., Johnson D. C.and Subramanian M.C

Functional Materials: Electronics and Sensors       (T.O.C.)

Journals
  1. Longtin JP, Zuo L, Hwang D, Fu GS, Tewolde M, Chen YK, Sampath S (2013) Fabrication of Thermoelectric Devices Using Thermal Spray: Application Vehicle Exhaust Systems. J Therm Spray Techn 22:577-587.
  2. Gambino RJ, Liang SS, Shinoda K, Colmenares-Angulo J, Sampath S (2012) Transition From GMR to AMR at the Percolation Threshold in Ferrite-Magnetic Alloy Composites. Ieee T Magn 48:2765-2768.
  3. Chen YK, Han SJ, Sampath S (2012) Process-Property Correlations in Thermal Spray Functional Oxides. Adv Mater Process 170:49-50.
  4. Shinoda K, Liang SS, Sampath S, Gambino RJ (2011) Processing effects on in-flight particle state and functional coating properties of plasma-sprayed manganese zinc ferrite. Mater Sci Eng B-Adv 176:22-31.
  5. Longtin JP, Mari E, Tan Y, Sampath S (2011) Using Thermal Spray and Laser Micromachining to Fabricate Sensors. J Therm Spray Techn 20:958-966.
  6. Gledhill AD, Reddy KM, Drexler JM, Shinoda K, Sampath S, Padture NP (2011) Mitigation of damage from molten fly ash to air-plasma-sprayed thermal barrier
  7. Srinivasan V, Sampath S (2010) Estimation of Molten Content of the Spray Stream from Analysis of Experimental Particle Diagnostics. J Therm Spray Techn 19:476-483.
  8. S.Y.Tan, R.J.Gambino, S.Sampath and H.Herman, “Electrical properties of pressure quenched silicon by thermal spraying”, Thin Solid Films, 515 (2007) 7744-7750
  9. A.Sharma, A.Gouldstone, S.Sampath and R.J.Gambino, “Anisotropic electrical conduction from
    heterogeneous oxidation states in plasma sprayed TiO2 coatings”, J.Applied Physics 100 (2006) 114906
  10. A. Sharma, R.J. Gambino, S. Sampath, "Anisotropic Electrical Properties in Thermal Spray Metallic Coatings", Acta. Mater., 54, (2006) pp.59- 65.
  11. A. Sharma, R.J. Gambino, S. Sampath, "Anisotropic Electrical Properties in Thermal Spray Metallic Coatings", Acta. Mater., 54, (2006) pp.59-65.
  12. S. Liang, R. J. Gambino, S. Sampath, and M. M. Raja, The magnetic properties of plasma-sprayed thickfilm manganese zinc ferrite (MZF) and nickel iron alloy (Permalloy) composites, J. Appl. Phys. 99, 08M915 (2006).
  13. T.A. Schaedler , A.S. Gandhi , M. Saito, M. Ruhle, R. Gambino, C.G.Levi, “Extended solubility of CoO in ZnO and effects on magnetic properties,” Journal of materials research, 21 (3) (2006), pp.791-801.
  14. B.D. Kharas, S. Sampath, R. J. Gambino, “Anisotropic resistivity in plasma-sprayed silicon thick films”, J. Applied Physics, 97 (2005) Article no. 094906.
  15. K. Ahn, B. Wessels and S. Sampath, “Spinel humidity sensors prepared by thermal spray direct writing”, Sensors and Actuators (B), 107 (2005), pp. 342-346.
  16. Q. Y. Yan, R. J. Gambino,and S. Sampath, “Magnetostriction and surface stress measurement of plasma sprayed MnZn ferrites”, J. Applied Physics, 97 (2005).
  17. Q. Y. Yan, R. J. Gambino,and S. Sampath, “Magnetostriction and stress measurements in plasma sprayed MnZn ferrite films”, J. Applied Physics, 97, 1 (2005).
  18. Q. Chen, J. P. Longtin, S. Tankiewicz, S. Sampath and R. J. Gambino, “Ultrafast laser micromachining and patterning of thermal spray multilayers for thermopile fabrication”, Journal of Micromechanics and Microengineering, 14 (2004), pp. 506-513.
  19. R. Gambino, M. M. Raja, S. Sampath, and R. Greenlaw, “Plasma sprayed thick film anisotropic
    magneto-resistive (amr) sensors”, IEEE Sensors, 4(2004), pp.764-768.
  20. J. Longtin, S. Sampath, S. Tankiewicz, R. J. Gambino and R. J. Greenlaw, “Sensors for harsh
    environments by direct-write thermal spray”, IEEE Sensors Journal, 4 (2004), pp. 118-121.
  21. Q. Y. Yan, R. J. Gambino, S. Sampath, L. H. Lewis and E. Baumberger, “Exchange Bias in Plasmasprayed MnZn Ferrites”, IEEE Transactions on Magnetics, 40 (2004), pp. 2787-2789.
  22. Q. Y. Yan, R. J. Gambino, S. Sampath, L. H. Lewis, L. Li, E. Baumberger, A. Vaidya and H. B. Xiong, “Effects of Zinc Loss on the Magnetic Properties of Plasma-sprayed MnZn Ferrite”, Acta Materialia, 52 (2004), pp. 3347-3353.
  23. Q. Y. Yan, R. J. Gambino and S. Sampath, “Plasma-sprayed MnZn Ferrites with Insulated Fine Grains and Increased Resistivity for High Frequency Application”, IEEE Transactions on Magnetics, 40 (2004), pp. 3346-3351.
  24. T. Tong, L. Li, Q. Chen, J. Longtin, S. Tankiewicz and S. Sampath, “Ultrafast laser micromachining of thermal sprayed coatings for microheaters: design, fabrication and characterization”, Sensors and Actuators A, 114 (2004), pp. 102-111.252K. Ahn, B. W. Wessels and S. Sampath, “Dielectric properties of plasma-sprayed BaTiO3 and Ba0.68Sr0.32TiO3 thick films”, J. Materials Research, 18 (2003), pp. 1227-1231.
  25. Q. Y. Yan, R. J. Gambino and S. Sampath, “Low-temperature annealing effect on plasma sprayed MnZn ferrite for planar transformers of high-frequency applications”, IEEE Transactions on Magnetics, 39 (2003), pp. 3106-3108.
  26. 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
Proceedings
  1. S.Liang, B.G.Ravi, S.Sampath and R.Gambino, Atmospheric plasma sprayed cobalt ferrite coatings for magnetostrictive sensor apps, 10th joint Magnetism & Magnetic Materials/Intermag Conf., DH-13, 2006.
  2. S.Sampath, “Novel concepts in Direct Writing of Electronics and Sensors”, Digital Fabrication 2005, Society for Imaging Science and Technology, (2005) 21-24.
  3. A. Sharma, R.J. Gambino, S. Sampath, "Electrical Conduction in Thermally Sprayed Thin Metallic Coatings" in Surface Engineering for Manufacturing Applications, edited by W.J. Meng, R. Maboudian, S.C. Chen, S.J. Bull, P.R. Chalker, Mat. Res. Symp. Proc. 890, Y9.11 (2005).
  4. S. Liang, B. G. Ravi, S. Sampath, R. J. Gambino, Microstructure and Electrical Characteristics of Plasma Sprayed Thick Film Mn-Co-Ni Oxide Thermistor, Mat. Res. Symp. Proc. 900E, 0900-O06-41
  5. R. Gambino, M. Manivel Raja, S. Sampath, and R. Greenlaw, “Plasma sprayed thick film anisotropic magnetoresistive (AMR) sensors”, Proceedings of IEEE symposium on sensors, Orlando, Florida, 2002, pp. 656 – 659
  6. J. Longtin, S. Sampath, R. Gambino, S. Tankiewicz and R.Greenlaw, “Sensors for harsh environment by direct write thermal spray”, Proceedings of IEEE symposium on sensors, Orlando, Florida, 2002, pp. 598 – 601.
  7. E. Rajamaki, T. Varis, A. Vaidya, A. Kulkarni, M. Karadge, J. Gutleber, S. Sampath and H. Herman, “Parameter optimization of HVOF sprayed alumina and effect of the spray parameters on the electrical properties of the coatings”, in E. Lugscheider, ed., Int. Thermal Spray Conf. (ITSC 2002), ASM International, Essen, Germany, 2002, p622
  8. K. Ahn, B. W. Wessels, R. Greenlaw and S. Sampath, “Dielectric properties of spray deposited BaTiO3 and Ba0.68Sr0.32TiO3, Materials Research Society Proceedings: Electroactive Polymers and Rapid Prototyping”, Eds. Chrisey D. B., Danforth S. C., Direct Write Electronics, 2001.
  9. J. Sun, C. H. Fan and J. P. Longtin, “Laser Processing of Thermal Spray Patterns using Femtosecond Pulses”, 35th National Heat Transfer Conference, NHTC01-1823, Anaheim, California, 2001, Electronic copy.
  10. A. H. Dent, A. S. Patel, J. Gutleber, S. Sampath, H. Herman and E. Tormey, “Structure-Dielectric Behavior Relationships in HVOF Sprayed BaTiO3”, in C. C. Berndt, ed., Thermal Spray: Surface Engineering via Applied Research (ITSC 2000), ASM International, Materials Park, OH, USA, Montreal, Quebec, Canada, 2000, p495.
  11. S. Sampath, A. Patel, A. H. Dent, R. Gambino, H. Herman, R. Greenlaw, and E. Tormey, “Thermal Spray Techniques for Fabrication of Meso-Electronics and Sensors”, Materials for Direct Write Electronics, Materials Research Society, 2000, p181.
  12. S. Y. Tan, R. J. Gambino, R. Goswami, S. Sampath and H. Herman, “Electrical Characteristics of
    Thermal Sprayed Silicon Coatings”, Materials for Direct Write Electronics, Materials Research Society, 2000, p189.

Book Chapters and Reviews       (T.O.C.)

  1. S. Sampath, G. Dwivedi, A. Valarezo, B. Choi, “Partnership for Accelerated Insertion of New Technology: Case Study for Thermal Spray Technology” Integr. Mater. Manuf. Innov.,2013, 2:1
  2. Sampath S, Schulz U, Jarligo MO, Kuroda S (2012) Processing science of advanced thermal-barrier systems. Mrs Bull 37:903-910.
  3. Weyant C, Sampath S (2011) Engineered Thermal Spray Coatings for Bridge Repair and Reclamation. Adv Mater Process 169:64-65.
  4. Sampath S (2010) Thermal Spray Applications in Electronics and Sensors: Past, Present, and Future. J Therm Spray Techn 19:921-949.
  5. S.Sampath, Thermal spray applications in electronics and sensors: past, present and future, Invited review, J.Thermal Spray Technology, Published online February 2010
  6. S.Sampath, Thermal Sprayed Ceramic Coatings: Fundamental Issues and Application Considerations, International Journal of Materials and Product Technology, vol.35, (2009) Nos �, 425-448 2008
  7. *A.Gouldstone, W.B.Choi, W.Chi, Y.Wu and S.Sampath, Mechanical, Thermal and Electrical Properties of Cold Sprayed Coatings, , in Cold Spray Materials Deposition Processes, Ed. Champagne and Helfritch, 2007, Woodhead Publishing, page 245.
  8. S. Sampath, R. J. Gambino, J. Longtin, H. Herman, R. Greenlaw and E. Tormey, Direct Write Electronics and Sensors by Thermal Spray, Invited Review, in D. Chrisey, ed., Direct Write Electronics, 2001, pp. 261.
  9. H. Herman and A. Kulkarni, “Thermal Spray Coatings: Materials, Processing and Properties”, 1st International ICAMP Meeting, New Zealand, 2000, p.13.
  10. H. Herman, S. Sampath and R. McCune, “Thermal spray: Current status and future trends”, MRS Bulletin, 25 (2000), pp. 17-25.
  11. S. Sampath and R. McCune, “Thermal-spray processing of materials”, MRS Bull., 25 (2000), pp. 12-14.
  12. G.-X.Wang and V.Prasad, 1999, “Rapid Solidification: Fundamentals and Modeling,” Annual Review in Heat Transfer, Ed. C.L. Tien (in press).