Source: https://www.stonybrook.edu/commcms/ctsr/research/_publications/Process%20Science%20and%20Modeling.php
Timestamp: 2019-04-21 04:39:20+00:00

Document:
A.Vackel, G.Dwivedi and S.Sampath, Structurally integrated damage-tolerant thermal spray coatings, JOM, The Minerals, Metals and Materials Society, Vol. 67 (7) (2015) 1540-1553.
G.Dwivedi, Y.Tan, V.Viswanathan and S.Sampath, Process-property relationship for air plasma sprayed Gadolium zirconate coatings, J.Thermal Spray Technology, 24(3) (2015) 454-466.
A.Valarezo, G.Dwivedi, S.Sampath, R.Musalek and J.Matejicek, Elastic and Anelastic Behavior of TBCs sprayed at high deposition rates, J.Thermal Spray Technology Vol.24(1) (2015) 160-167.
Dwivedi, G., Tan, Y., Viswanathan, V., & Sampath, S. Process-Property Relationship for Air Plasma-Sprayed Gadolinium Zirconate Coatings. (2014), Journal of Thermal Spray Technology, 24(3), 454-466.
Varis, T., Suhonen, T., Ghabchi, A., Valarezo, A., Sampath, S., Liu, X., & Hannula, S. P. Formation Mechanisms, Structure, and Properties of HVOF-Sprayed WC-CoCr Coatings: An Approach toward Process Maps (2014), Journal of Thermal Spray Technology, 23(6), 1009-1018.
Okajima, Y., Nakamura, T., & Sampath, S. Effect of Powder Injection on the Interfacial Fracture Toughness of Plasma-Sprayed Zirconia (2013), Journal of thermal spray technology, 22(2-3), 166-174.
Chen, Y., Tan, Y., Tessarini, S., & Sampath, S. Integrated Study of APS YSZ Coatings with Different Spray Angle (2013), Journal of thermal spray technology, 22(2-3), 110-115.
Fu, G., Zuo, L., Longtin, J., Chen, Y., & Sampath, S. Progress on Searching Optimal Thermal Spray Parameters for Magnesium Silicide (2013, January) MRS Proceedings (Vol. 1490, pp. 173-177). Cambridge University Press.
Tan, Y., Srinivasan, V., Nakamura, T., Sampath, S., Bertrand, P., & Bertrand, G Optimizing compliance and thermal conductivity of plasma sprayed thermal barrier coatings via controlled powders and processing strategies (2012), Journal of thermal spray technology, 21(5), 950-962.
Shinoda, K., Colmenares-Angulo, J., Valarezo, A., & Sampath, S. Effect of deposition rate on the stress evolution of plasma-sprayed yttria-stabilized zirconia (2012), Journal of thermal spray technology, 21(6), 1224-1233.
J.Colmenares-Angulo, K.Shinoda, T.Wentz, W.Zhang, Y.Tan and S.Sampath, On the response of different particle state sensors to deliberate process variations, 20(5) (2011)1244-1258.
W.Zhang and S.Sampath, A Universal Method for Representation of In-Flight Particle Characteristics in Thermal Spray Processes, Journal of thermal spray technology, (2009) March 2009, Volume 18, Issue 1, pp 23–34.
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.
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.
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.
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.
H.B. Xiong, L.L. Zheng,L. Li and A. Vaidya, “Melting and oxidation behavior of in-flight particles in plasma spray process,” International Journal of Heat and Mass Transfer, Vol. 48, (2005), pp.5121-5133.
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.
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.
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.
Y. 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.
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.
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.
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.
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.
Y. 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.
L. 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.
A.E.Newman, S.Sampath and H. Herman, ‘Processing and Properties of MoSi2-SiC and MoSi2-Al2O3’, Materials Science and Engineering (A), 261(1-2) (1999) 252-260.
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.
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.
H. Zhang and V. Prasad, “An Advanced Numerical Scheme for Materials Process Modeling”, Computer Modeling Simulation Eng., 2 (1997), pp. 322.
M.Finot, S.Suresh, C.Bull and S.Sampath , ‘Curvature Changes during Thermal Cycling of a Compositionally -Graded Ni-Alumina Multilayered Material’ , Materials Science & Engineering. A 205(1995) 59-71.
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.
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.
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, ASME-JSME Thermal Engineering Heat Transfer Conference, Vancouver, British Columbia, Canada, HT2007-32393.
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.
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.
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.
A. 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.
G. 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.
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..
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.
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.
Vaidya, G. Bancke, S. Sampath and H. Herman, “Influence of Process Variables on the Plasma Sprayed Coatings: An Integrated Study”, 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.
L.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.
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.
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.
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.
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.
X.Y.Jiang and S.Sampath, “Effect of Substrate Condition on Splat Formation During Thermal Spray Deposition”, Solidification 1998, TMS, p439.
S.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.
Y.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.

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