The Padture Group, Brown

 

Publications

Please contact Prof. Nitin Padture for reprint requests.

Refereed Journal Papers

 

  1. N.P. Padture and L.D. Pye, “Glass formation and structure of glasses in the Y2O3-Fe2O3-B2O3 system,” Glastechnische Berichte, 64 [5] 128-36 (1991).
  2. N.P. Padture and L.D. Pye, “Crystallization kinetics of a glass in the Y2O3-Fe2O3-B2O3 system,” Journal of Materials Science Letters, 10, 269-71 (1991).
  3. N.P. Padture and H.M. Chan, “Influence of grain size and degree of crystallization of intergranular glassy phase on the mechanical behaviour of a debased alumina,” Journal of Materials Science, 26, 2711-15 (1991).
  4. S.J. Bennison, N.P. Padture, J.L. Runyan and B.R. Lawn, “Flaw-insensitive ceramics,” Philosophical Magazine Letters, 64 [4] 191-95 (1991).
  5. N.P. Padture and H.M. Chan, “On the constrained crystallization of synthetic anorthite (CaO-Al2O3-2SiO2),” Journal of Materials Research, 7 [1] 170-77 (1992).
  6. N.P. Padture and H.M. Chan, “Improved Flaw Tolerance in Alumina Containing 1 vol% Anorthite via Crystallization of the Intergranular Glass,” Journal of the American Ceramic Society, 75 [7] 1870-75 (1992).
  7. N.P. Padture, “Post-failure subsidiary cracking from indentation flaws in brittle materials,” Journal of Materials Research, 8 [6] 1411-17 (1993).
  8. N.P. Padture, S.J. Bennison and H.M. Chan, “Flaw-Tolerance and Crack-Resistance Properties of Alumina-Aluminum Titanate Composites with Tailored Microstructures,” Journal of the American Ceramic Society, 76 [9] 2312-20 (1993).
  9. B.R. Lawn, N.P. Padture, L.M. Braun and S.J. Bennison, “Model for Toughness-Curves in Two-Phase Ceramics: I. Basic Fracture Mechanics,” Journal of the American Ceramic Society, 76 [9] 2235-40 (1993).
  10. N.P. Padture, J.L. Runyan, S.J. Bennison, L.M. Braun and B.R. Lawn “Model for Toughness-Curves in Two-Phase Ceramics: II. Microstructural Variables,” Journal of the American Ceramic Society, 76 [9] 2241-47 (1993).
  11. F. Guiberteau, N.P. Padture, H. Cai and B.R. Lawn, “Indentation Fatigue: A Simple Cyclic Hertzian Test for Measuring Damage Accumulation in Polycrystalline Ceramics,” Philosophical Magazine, A68 [5] 1003-16 (1993).
  12. N.P. Padture, “In Situ-Toughened Silicon Carbide,” Journal of the American Ceramic Society, 77 [2] 519-23 (1994).
  13. B.R. Lawn, N.P. Padture, H. Cai and F. Guiberteau “Making Ceramics ‘Ductile’,” Science, 263, 1114-16 (1994).
  14. H. Cai, N.P. Padture, B.M. Hooks and B.R. Lawn “Flaw Tolerance and Toughness-Curves in two-Phase Particulate Composites: SiC/Glass,” Journal of the European Ceramic Society, 13, 149-57 (1994).
  15. C-F. Chen, M.E. Perisse, A.E. Ramirez, N.P. Padture and H.M. Chan “Effect of Grain Boundary Phase on the Thermal Conductivity of AlN Ceramics,” Journal of Materials Science, 29, 1595-1600 (1994).
  16. B.R. Lawn, N.P. Padture, F. Guiberteau and H. Cai “A Model for Microcrack Initiation and Propagation Beneath Hertzian Contacts in Polycrystalline Ceramics,” Acta Metallurgica et Materialia, 42 [5] 1683-93 (1994).
  17. F. Guiberteau, N.P. Padture and B.R. Lawn, “Effect of Grain Size on Hertzian Contact Damage in Al2O3,” Journal of the American Ceramic Society, 77 [7] 1825-31 (1994).
  18. N.P. Padture and B.R. Lawn, “Toughness Properties of a Silicon Carbide with an in Situ Induced Heterogeneous Grain Structure,” Journal of the American Ceramic Society, 77 [10] 2518-22 (1994).
  19. N.P. Padture, C.J. Evans, H.H.K. Xu and B.R. Lawn “Enhanced Machinability of a Silicon Carbide Ceramic via Microstructural Design,” Journal of the American Ceramic Society, 78 [1] 215-17 (1995).
  20. H.H.K. Xu, L. Wei, N.P. Padture, B.R. Lawn and R.L. Yeckley, “Effect of Microstructural Coarsening on Short-Crack Toughness Properties of Si3N4,” Journal of Materials Science, 30, 869-78 (1995).
  21. N.P. Padture and B.R. Lawn, “Fatigue in ceramics with interconnecting weak interfaces: a study using cyclic hertzian contacts,” Acta Metallurgica et Materialia, 43 [4] 1609-17 (1995).
  22. H.H.K. Xu, N.P. Padture and S. Jahanmir, “Effect of Microstructure on Material-Removal Mechanisms and Damage Tolerance in the Abrasive Machining of Silicon Carbide,” Journal of the American Ceramic Society, 78 [9] 2443-48 (1995).
  23. N.P. Padture and B.R. Lawn “Contact Fatigue of a Silicon Carbide with a Heterogeneous Grain Structure,” Journal of the American Ceramic Society, 78 [6] 1431-38 (1995).
  24. N.P. Padture, D.C. Pender, S. Wuttiphan and B.R. Lawn “In Situ Processing of Layered Structures in Silicon Carbide,” Journal of the American Ceramic Society, 78 [11] 3160-62 (1995).
  25. L. An, H.M. Chan, N.P. Padture and B.R. Lawn “Damage-Resistant Alumina-Based Layer Composites,” Journal of Materials Research, 11 [1] 204-10 (1996).
  26. S. Wuttiphan, B.R. Lawn and N.P. Padture “Crack Suppression in Strongly-Bonded Homogeneous/Heterogeneous Laminates: A Study on Glass/Glass-Ceramic Bilayers,” Journal of the American Ceramic Society, 79, [3] 634-40 (1996).
  27. A. Pajares, L. Wei, B.R. Lawn, N.P. Padture and C.C. Brendt, “Mechanical Characterization of Plasma-Sprayed Ceramic Coatings on Metal Substrates by Contact Testing,” Materials Science & Engineering, A208, 158-65 (1996).
  28. N.P. Padture and P.G. Klemens, “Low Thermal Conductivity in Garnets,” Journal of the American Ceramic Society, 80 [4] 1018-20 (1997).
  29. B.A. Latella, B.H. O’Connor, N.P. Padture and B.R. Lawn, “Hertzian Contact Damage in Porous Alumina Ceramics,” Journal of the American Ceramic Society, 80 [4] 1027-31 (1997).
  30. J. Jitcharoen, N.P. Padture, A.E. Giannakopoulos and S. Suresh ,“Hertzian-Crack Suppression in Ceramics with Elastic-Modulus-Graded Surfaces,” Journal of the American Ceramic Society, 81 [9] 2301-08 (1998).
  31. D.C. Pender and N.P. Padture, “Surface-Layered Silicon Carbide for Enhanced Contact-Damage Resistance,”Journal of Materials Science Letters, 17, 999-1002 (1998).
  32. H. Ye, V.V. Pujar and N.P. Padture“Coarsening in Liquid-Phase-Sintered a-SiC,” Acta Materialia, 47 [2] 481-87 (1999).
  33. 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 [14] 3915-26 (1999).
  34. R.P. Jensen, W.E. Luecke, N.P. Padture and S.M. Wiederhorn “High-Temperature Properties of Liquid-Phase-Sintered a-SiC,” Materials Science and Engineering A, 282 [1-2] 109-114 (2000).
  35. V.V. Pujar, R.P. Jensen and N.P. Padture, “Densification of Liquid-Phase-Sintered SiC,” Journal of Materials Science Letters, 19, 1011-14 (2000).
  36. A.L. Ortiz, F.L. Cumbrera, F. Sanchez-Bajo, F. Guiberteau, H. Xu and  N.P. Padture, “Quantitative Phase-Composition Analysis of LPS SiC Using the Rietveld Method,” Journal of the American Ceramic Society, 83 [9] 2282-86 (2000).
  37. K.W. Schlichting, K. Vaidyanathan, Y.H. Sohn, E.H. Jordan, M. Gell and N.P. Padture, “Application of Cr3+ Photoluminescence Piezo-Spectroscopy to Plasma-Sprayed Thermal Barrier Coatings for Residual Stress Measurement,” Materials Science and Engineering A291, 68-77 (2000).
  38. A.L. Ortiz, F.L. Cumbrera, F. Sánchez-Bajo, F. Guiberteau, H. Xu and N.P. Padture, “Aplicación del Método de Rietveld al Análisis Cuantitativo en SiC Sinterizado en Fase Líquida" (in Spanish), Boletin de la Sociedad Española de Cerámica y Vidrio, 39 [3] 347-350 (2000).      
  39. K.W. Schlichting, N.P. Padture and P.G. Klemens, “Thermal Conductivity of Dense and Porous Y2O3-Stabilized ZrO2,” Journal of Materials Science, 36 [12] 3003-12 (2001).
  40. A.L. Ortiz, F. Sanchez-Bajo, N.P. Padture, F.L. Cumbrera and F. Guiberteau, “Quantitative Polytype-Composition Analyses of SiC Using X-ray Diffraction: A Critical Comparison Between the Polymorphic and the Rietveld Methods,” Journal of the European Ceramic Society21 [9] 1237-48 (2001).
  41. H. Xu, T. Bhatia, S.A. Deshpande, N.P. Padture, A.L. Ortiz and F.L. Cumbrera, “Microstructural Evolution in Liquid-Phase-Sintered SiC: I, Effect of Starting Powder,” Journal of the American Ceramic Society, 84 [7] 1578-84 (2001).
  42. S.A. Deshpande, T. Bhatia, H. Xu, N.P. Padture, A.L. Ortiz and F.L. Cumbrera, “Microstructural Evolution in Liquid-Phase-Sintered SiC: II, Effects of Planar Defects Densities and Seeds in the Starting Powder,” Journal of the American Ceramic Society, 84 [7] 1585-90 (2001).
  43. N.P. Padture, K.W. Schlichting, T. Bhatia, A. Ozturk, B. Cetegen, E.H. Jordan, M. Gell, S, Jiang, T.D. Xiao, P.R. Strutt, E. Garcia, P. Miranzo and M.I. Osendi, “Towards Durable Thermal Barrier Coatings with Novel Microstructures Deposited by Solution-Precursor Plasma Spray,” Acta Materialia, 49, 2251-57 (2001).
  44. D.C. Pender, N.P. Padture, A.E. Giannakopoulos and S. Suresh, “Gradients in Elastic Modulus for Improved Contact-Damage Resistance: Part I, The Silicon Nitride-Oxynitride Glass System,” Acta Materialia, 49, 3255-62 (2001).
  45. D.C. Pender S.C. Thompson, N.P. Padture, A.E. Giannakopoulos and S. Suresh, “Gradients in Elastic Modulus for Improved Contact-Damage Resistance: Part II, The Silicon Nitride-Silicon Carbide System,” Acta Materialia, 49, 3263-68 (2001).
  46. A.L. Ortiz, T. Bhatia, N.P. Padture, and G. Pezzotti, “Microstructural Evolution in Liquid-Phase-Sintered SiC: III, Effect of Atmosphere,” Journal of the American Ceramic Society, 85 [7] 1835-40 (2002).
  47. S.C. Thompson, A. Pandit, N.P. Padture and S. Suresh, “Stepwise-Graded Si3N4-SiC Ceramics with Improved Wear Properties,” Journal of the American Ceramic Society, 85 [8] 2059-64 (2002).
  48. T. Bhatia, A. Ozturk, L. Xie, E.H. Jordan, B.M. Cetegen, M. Gell X. Ma and N.P. Padture, “Mechanisms of Ceramic Coating Deposition in Solution-Precursor Plasma Spray,” Journal of Materials Research, 17 [9] 2363-72 (2002).
  49. J. Wu, X. Wei, N.P. Padture, P.G. Klemens, M. Gell, E. Garcia, P. Miranzo and M.I. Osendi, “Low Thermal Conductivity Rare-Earth Zirconates for Possible Thermal-Barrier Coatings Application,” Journal of the American Ceramic Society, 85 [12] 3031-3035 (2002).
  50. J. Wu, N.P. Padture, P.G. Klemens, M. Gell, E. Garcia, P. Miranzo and M.I. Osendi, “Thermal Conductivity of Ceramics in the ZrO2-GdO1.5 System,” Journal of Materials Research, 17 [12] 3193-3200 (2002).
  51. N.P. Padture, M. Gell and E.H. Jordan, “Thermal Barrier Coatings for Gas-Turbine Engine Applications,” Science, 296, 280-284 (2002).
  52. K.W. Schlichting, N.P. Padture, E.H. Jordan and M. Gell, “Failure Modes in Plasma-Sprayed Thermal Barrier Coatings,” Materials Science and Engineering, A342, 120-130 (2003).
  53. T. Bhatia, M. Aindow and N.P. Padture, “Formation of a ‘Self-Assembled’ Cu/g-Al2O3 Nanocomposite,” Philosophical Magazine Letters, 83 [2] 135-142 (2003).
  54. P. Bansal, N.P. Padture and A.L. Vasiliev, “Improved Interfacial Mechanical Properties of Al2O3-13wt%TiO2 Plasma-Sprayed Coatings Derived from Nanocrystalline Powders,” Acta Materialia, 51 [10] 2959-70 (2003).
  55. N.P. Padture, “Graded Ceramics for Improved Contact-Damage Resistance,” Materials Science Forum, 423-425, 125-130 (2003).
  56. L. Xie, X. Ma, E.H. Jordan, N.P. Padture, T.D. Xiao and M. Gell, “Identification of Coating Deposition Mechanisms in the Solution-Precursor Plasma-Spray Process using Model Spray Experiments,” Materials Science and Engineering A362 [1-2] 204-212 (2003).
  57. A. Pandit and N.P. Padture, “Interfacial Toughness of Diamond-Like Nanocomposite Thin Films on Ceramic Substrates,” Journal of Materials Science Letters, 22 [18] 1261-1262 (2003).
  58. D. Andeen, L. Loeffler, N.P. Padture and F.F. Lange, “Crystal Chemistry of Epitaxial ZnO on (111) MgAl2O4 Produced by Hydrothermal Synthesis,” Journal of Crystal Growth, 259 [1-2] 103-109 (2003).
  59. N.P. Padture and X. Wei, “Hydrothermal Synthesis of Thin Films of Barium Titanate Ceramic Nano-Tubes at 200°C,” Journal of the American Ceramic Society, 86 [12] 2215-2217 (2003).
  60. M. Gell, L. Xie, X. Ma, E.H. Jordan, N.P. Padture, “Highly Durable Thermal Barrier Coatings Made by the Solution Precursor Plasma Spray Process,” Surface Coatings and Technology, 177-178, 97-102 (2004).
  61. L. Xie, X. Ma, E.H. Jordan, N.P. Padture, T.D. Xiao and M. Gell, “Deposition Mechanisms in the Solution-Precursor Plasma-Spray Process,” Surface Coatings and Technology, 177-178, 103-107 (2004).
  62. L. Xie, X. Ma, E.H. Jordan, N.P. Padture, T.D. Xiao and M. Gell, “Coating-Deposition Mechanisms of Thermal Barrier Coatings in the Solution-Precursor Plasma-Spray Process and their Contribution to the Coating Formation,” Journal of Materials Science, 39, 1639-46 (2004).
  63. L. Xie, X. Ma, A. Ozturk, E.H. Jordan, N.P. Padture, B.M. Cetegen, T.D. Xiao and M. Gell, “Processing Parameter Effects on the Solution Precursor Plasma Spray Process Spray Patterns,” Surface Coatings and Technology, 183, 51-61 (2004).
  64. J. Wu, N.P. Padture and M. Gell, “High-Temperature Chemical Stability of Low Thermal Conductivity Gd2O3-ZrO2 Thermal-Barrier Ceramics in Contact with Al2O3,” Scripta Materialia, 50 [10] 1315-18 (2004).
  65. E.H. Jordan, L. Xie, X. Ma, M. Gell, N.P. Padture, B.M. Cetegen, A. Ozturk, J. Roth, T.D. Xiao, P.E.C. Bryant, “Superior Thermal Barrier Coatings Using Solution Precursor Plasma Spray,” Journal of Thermal Spray Technology, 13 [1] 57-65 (2004).
  66. X. Wang and N.P. Padture, “Shear Strength of Ceramics,” Journal of Materials Science, 39, 1891-93 (2004).
  67. A.L. Ortiz, A.M. Muñoz-Bernabé, O.Borrero-López, A. Domínguez-Rodríguez, F. Guiberteau and N.P. Padture, “Effect of Sintering Atmosphere on the Mechanical Properties of Liquid-Phase-Sintered SiC,” Journal of the European Ceramic Society, 24, 3245-3249 (2004).
  68. X. Wang, N.P. Padture and H. Tanaka, “Contact-Damage-Resistant Ceramic/Single-Wall Carbon Nanotubes and Ceramic/Graphite Composites,” Nature Materials, 3 [8] 539-44 (2004).
  69. N.P. Padture, “Graded Ceramics for Improved Contact-Damage Resistance: A Review,” International Journal of Computational Engineering and Science, 5 [4] 731-52 (2004).
  70. X. Wei and N.P. Padture, “Hydrothermal Synthesis of Tetragonal BaxSr(1-x)TiO3 Powders,” Journal of Ceramic Processing Research, 5 [2] 175-78 (2004).
  71. L. Xie, E.H. Jordan, N.P. Padture and M. Gell, “Phase and Microstructural Stability of Solution Precursor Plasma Sprayed Thermal Barrier Coatings,” Materials Science and Engineering A381, 189-195 (2004).
  72. M. Gell, L. Xie, E.H. Jordan and N.P. Padture, “Mechanisms of Spallation of Solution Precursor Plasma Spray Thermal Barrier Coatings,” Surface Coatings and Technology, 188-189, 101-109 (2004).
  73. X. Wang, N.P. Padture, H. Tanaka and A.L. Ortiz, “Wear-Resistant Ultra-Fine-Grained Ceramics,” Acta Materialia, 53 [2] 271-277 (2005).
  74. X. Wei, A. Vasiliev and N.P. Padture, “Hydrothermal Synthesis of Nano-Tubes Patterned Thin Films of Barium-Strontium Titanate (BST),” Journal of Materials Research, 20 [8] 2140-2147 (2004).
  75. O. Borrero-Lopez, A.L. Ortiz, F. Guiberteau and N.P. Padture, "Effect of Microstructure on the Sliding-Wear Properties of Liquid-Phase-Sintered a-SiC," Journal of the American Ceramic Society, 88 [8] 2159-2163 (2005).
  76. A. Jadhav, N.P. Padture, E.H. Jordan and M. Gell, “Thick Thermal Barrier Coatings with High Durability Deposited by Solution-Precursor Plasma Spray,” Material Science and Engineering A405 [1-2] 313-320 (2005).
  77. O. Borrero-Lopez, A.L. Ortiz, F. Guiberteau and N.P. Padture, "Improved Sliding-Wear Properties in In Situ-Toughened Silicon Carbide," Journal of the American Ceramic Society, 88 [12] 3531-3534 (2005).
  78. O. Borrero-Lopez, A.L. Ortiz, F. Guiberteau and N.P. Padture, "Ambient-Temperature Mechanical Properties of alpha-SiC Ceramics Sintered Using Y2O3-Al2O3 Liquid Phase," (in Spanish) Boletin de la Sociedad Española de Cerámica y Vidrio, 44 [5] 265-269 (2005).
  79. J.S. Tresback, A.L. Vasiliev and N.P. Padture, "Engineered Metal-Oxide-Metal Heterojunction Nanowires," Journal of Materials Research, 20 [10] 2613-2617 (2005).
  80. A. Jadhav, N.P. Padture, E.H. Jordan, M. Gell, P. Miranzo, and E.R. Fuller, Jr., "Low Thermal Conductivity Plasma-Sprayed Thermal Barrier Coatings with Engineered Microstructures," Acta Materialia, 54, 3343-3349 (2006).
  81. R. Poyato, B.D. Huey, and N.P. Padture, "Local Piezoelectricity and Ferroelectricity in Nano-Tube-Patterned Thin Films of BaTiO3 Synthesized Hydrothermally at 200°C," Journal of Materials Research, 21 [3] 547-551 (2006).
  82. R. Poyato, A. Vasiliev, N.P. Padture, H. Tanaka, and T. Nishimura, “Aqueous Colloidal Processing of Single-Wall Carbon Nanotubes and their Composites with Ceramics,” Nanotechnology, 17, 1770-1777 (2006).
  83. A. Vasiliev, N.P. Padture and X. Ma, "Nanostructured Coatings of Metastable Ceramics: Part I, The ZrO2-Al2O3 Binary System," Acta Materialia, 54, 4913-4920 (2006).
  84. A. Vasiliev and N.P. Padture, "Nanostructured Coatings of Metastable Ceramics: Part II, The Ternary ZrO2-Y2O3-Al2O3 System," Acta Materialia, 54, 4921-4928 (2006).
  85. J.-J. Shyue, R.E. Cochran, N.P. Padture, "Transparent-Conducting, Gas-Sensing Nanostructures (Nanowires, Nanotubes, Thin Films) of Anatase TiO2 Synthesized at Near-Ambient Conditions," Journal of Materials Research, 21 [11] 2894-2903 (2006).
  86. J.-J. Shyue and N.P. Padture, "Template-Directed, Near-Ambient Synthesis of Au-TiO2-Au Heterojunction Nanowires Mediated by Self-Assembled Monolayers (SAMs)," Materials Letters, 61, 182-185 (2007).
  87. O. Borrero-Lopez, A.L. Ortiz, F. Guiberteau, and N.P. Padture, "Effect of Liquid-Phase Content on the Contact-Mechanical Properties of Liquid-Phase-Sintered alpha-SiC," Journal of the European Ceramic Society, 27 [6] 2521-2527 (2007).
  88. O. Borrero-Lopez, A.L. Ortiz, F. Guiberteau, and N.P. Padture, "Low-Cost Liquid-Phase-Sintered SiC with Improved Sliding-Wear Resistance," Journal of the American Ceramic Society, 90 [2] 541-545 (2007).
  89. O. Borrero-Lopez, A.L. Ortiz, F. Guiberteau, and N.P. Padture, "Microstructural Design of Sliding-Wear-Resistant Liquid-Phase-Sintered SiC; An Overview," Journal of the European Ceramic Society, 27, 3351-3357 (2007).
  90. A.L. Vasiliev, R. Poyato, and N.P. Padture, "Single-Wall Carbon Nanotubes at Ceramic Grain Boundaries," Scripta Materialia, 56 [6] 461-463 (2007).
  91. R.E. Cochran, J.-J. Shyue, and N.P. Padture, "Template-Based, Near-Ambient Synthesis of Crystalline Metal-Oxide Nanowires, Nanotubes, and Co-Axial Nanotubes," Acta Materialia, 55, 3007-3014 (2007).
  92. E.D.Herderick, J.S. Tresback, A.L. Vasiliev, and N.P. Padture, "Template-Directed Synthesis, Characterization, and Electrical Properties of Au-TiO2-Au Heterojunction Nanowires," Nanotechnology, 18, Art. No. 155204 (2007).
  93. S.S. Hwang, A.L. Vasiliev, and N.P. Padture, "Improved Processing and Oxidation Resistance of ZrB2 Ultra-High Temperature Ceramics Containing SiC Nanodispersoids," Materials Science and Engineering A, 464, 216-224 (2007).
  94. J.S. Tresback, A.L. Vasiliev, N.P. Padture, S.-Y. Park, and P.R. Berger, "Characterization and Electrical Properties of Individual Au-NiO-Au Heterojunction Nanowires," IEEE Transactions on Nanotechnology, 6 [6] 676-81 (2007).
  95. Y. Wang, K. Coti, J. Wang, M.M. Alam, J.-J. Shyue, W. Lu, N.P. Padture, H.-R. Tseng, "Individually Addressable Crystalline Conducting Polymer Nanowires in a Microelectrode Sensor Array," Nanotechnology, 18, Art. No. 424021 (2007).
  96. O. Borrero-Lopez, A.L. Ortiz, F. Guiberteau, and N.P. Padture, "Effect of the Nature of Intergranular Phase on the Sliding-Wear Resistance of Liquid-Phase-Sintered alpha-SiC," Scripta Materialia, 57, 505-508 (2007).
  97. A. Aygun, A.L. Vasiliev, N.P. Padture, and X. Ma, "Novel Thermal Barrier Coatings that are Resistant to High-Temperature Attack by Glassy Deposits," Acta Materialia, 55, 6734-6745 (2007).
  98. M. Gell, E.H. Jordan, M. Teicholz, B.M. Cetegen, N.P. Padture, L. Xie, D. Chen, X. Ma, and J. Roth, "Thermal Barrier Coatings Made by the Solution Precursor Plasma Spray Process," Journal of Thermal Spray Technology, 17 [1], 124-135 (2008).
  99. N.P. Padture and W.A. Curtin, "Comment on 'Effect of Sintering Temperature on a Single-Wall Carbon Nanotubes-Toughened Alumina-Based Composite'," Scripta Materialia, 58, 989-990 (2008).
  100. E. Zapata-Solvas, R. Poyato, D. Gómez-Garcia, A. Dominguez-Rodriguez, V. Radmilovic, and N.P. Padture, "Creep-Resistant Composites of Alumina and Single-Wall Carbon Nanotubes," Applied Physics Letters, 92, Art. No. 111912 (2008).
  101. J.S. Tresback and N.P. Padture, "Low-Temperature Gas-Sensing in Individual Metal-Oxide-Metal Heterjounction Nanowires," Journal of Materials Research, 23 [8] 2047-2052 (2008).
  102. A.D. Jadhav and N.P. Padture, "Mechanical Properties of Solution-Precursor Plasma Sprayed Thermal Barrier Coatings," Surface & Coatings Technology, 202, 4976-4979 (2008).
  103. D. Li, W. Windl and N.P. Padture, "Towards Site-Specific Stamping of Graphene," Advanced Materials, 21 [12] 1243-1246 (2009).
  104. N.P. Padture, "Multifunctional Composites of Ceramics and Single-Wall Carbon Nanotubes," Advanced Materials, 21, 1767-1770 (2009).
  105. E. Zapata-Solvas, R. Poyato, D. Gómez-García, A. Domínguez-Rodríguez, and N.P. Padture, "High Temperature Mechanical Behavior of Al2O3/Graphite Composites," Journal of the European Ceramic Society, 29, 3205-3209 (2009).
  106. E.D. Herderick. K.M. Reddy, R.N. Sample, D.I. Draskiovic and N.P. Padture, "Bipolar Resistive Switching in Individual Au-NiO-Au Segmented Nanowires," Applied Physics Letters, 95, Art No. 203505 (2009).
  107. E. Zapata-Solvas, D. Gómez-García, R. Poyato, Z. Lee, M. Castillo-Rodríguez, A. Domínguez-Rodríguez, V. Radmilovic and N. P. Padture, "Microstructural Effects on the Creep Deformation of Alumina/Single-Wall Carbon Nanotubes Composites,"Journal of the American Ceramic Society, 93 [7] 2042-2047 (2010).
  108. J.M. Drexler, A. Aygun, D. Li, R. Vaßen, T. Steinke, N.P. Padture, "Thermal-gradient testing of thermal barrier coatings under simultaneous attack by molten glassy deposits and its mitigation," Surface & Coatings Technology, 204, 2683-2688 (2010).
  109. E.D. Herderick, N.A. Polomoff, B.D. Huey and N.P. Padture, "Chemically-Synthesized Metal-Oxide-Metal Segmented Nanowires with High Ferroelectric Response," Nanotechnology, 21, Art. No. 335601 (2010).
  110. J.M. Drexler, K. Shinoda, A.L. Ortiz, D. Li, A.L. Vasiliev, A.D. Gledhill, S. Sampath, N.P. Padture, "Air-plasma-sprayed thermal barrier coatings that are resistant to high-temperature attack by glassy deposits," Acta Materialia, 58, 6835-6844 (2010).
  111. B. Núñez-González, A.L. Ortiz, F. Guiberteau, and N.P. Padture, "Effect of MoSi2 Content on the Sliding-Wear Resistance of ZrC-MoSi2 Composites," Journal of the European Ceramic Society, 31, 877-882 (2011).
  112. K.M. Reddy, C. Chen, A.D. Gledhill, J.M. Drexler, and N.P. Padture, "High Quality, Transferrable Graphene Grown on Single-Crystal Copper (111) Thin Films on Basal-Plane Sapphire," Applied Physics Letters, 98, 113117 (2011).
  113. T. Kampfrath, A. Moiseev, Z. Shah, Z. Ying, J. A. Deiuliis, K.M. Reddy, N. Kherada, N.P. Padture, L.C. Chen, S. Moffatt-Bruce, S. Parthasarathy, Q. Sun, H. Morawietz, and S. Rajagopalan, "PM2.5 Exposure Induces Systemic Vascular Dysfunction via NADPH Oxidase and TLR4 Dependent Pathways," Circulation Research, 108, 716-726 (2011).
  114. A.D. Gledhill, K.M. Reddy, J.M. Drexler, K. Shinoda, S. Sampath, and N.P. Padture, "Mitigation of Damage from Molten Fly Ash to Air-Plasma-Sprayed Thermal Barrier Coatings," Materials Science & Engineering A, 528, 7214-7221 (2011).
  115. L. Fang, X. Zhao, Y-H. Chiu, D. Ko, K.M. Reddy, N.P. Padture, F. Yang and E. Johnston-Halperin, "Comprehensive Control of Optical Polarization Anisotropy in Semiconducting Nanowires," Applied Physics Letters, 99, 141101 (2011).
  116. J.M. Drexler, A.D. Gledhill, K. Shinoda, A.L. Vasiliev, K.M. Reddy, S. Sampath, and N.P. Padture, "Jet Engine Coatings for Resisting Volcanic Ash Damage," Advanced Materials, 23, 2419-2424 (2011). {Featured on inside front cover.}
  117. T. Mroz, L.M. Goldman, A.D. Gledhill, D. Li, and N.P. Padture, “Nanostructured, Infrared-Transparent Magnesium-Aluminate Spinel with Superior Mechanical Properties,International Journal of Applied Ceramic Technology, 9 [1] 83-90 (2012).
  118. A.D. Gledhill, D. Li, N.P. Padture, T. Mroz, and L.M. Goldman, “Strengthening of Transparent Spinel/Si3N4 Nanocomposites,” Acta Materialia, 60, 1570-1575 (2012).
  119. O. Borrero-Lopez, A.L. Ortiz, A.D. Gledhill, T. Morz, L.M. Goldman, and N.P. Padture, “Grain-Size Effect on the Sliding Wear of Transparent Magnesium-Aluminate Spinel,” Journal of the European Ceramic Society, 32, 3143-3149 (2012).
  120. J.M. Drexler, C-H. Chen, A.D. Gledhill, K. Shinoda, S. Sampath, and N.P. Padture, “Plasma Sprayed Gadolinium Zirconate Thermal Barrier Coatings that are Resistant to Damage by Molten Ca-Mg-Al-Silicate Glass,” Surface & Coatings Technology, 206, 3911- 3916 (2012).
  121. C.-H. Chen, K.M. Reddy, and N.P. Padture, “Site-Specific Stamping of Graphene Micro-Patterns Over Large Areas Using Flexible Stamps,” Nanotechnology, 23, 235603 (2012).
  122. J.M. Drexler, A.L. Ortiz, and N.P. Padture, “Effect of Composition of Thermal Barrier Coating Ceramics on their Interaction with Molten Ca-Mg-Al-Silicate Glass,” Acta Materialia, 60 [15], 5437-5447 (2012).
  123. D.R. Clarke, M. Oeschner, and N.P. Padture, “Thermal Barrier Coatings for More Efficient Gas-Turbines Engines,” MRS Bulletin, 37 [10], 891-898 (2012). {Featured on the front cover.}
  124. J. Webb, B. Casaday, B. Barker, J. Bons, A.D. Gledhill, and N.P. Padture, “Coal Ash Deposition on Nozzle Guide Vanes: Part 1 - Experimental Characteristics of Four Coal Ash Types,” ASME Journal of Turbomachinery, 135, 021033 (2013).
  125. P.S. Park, K.M. Reddy, D.N. Nath, Z. Yang, N.P. Padture, and S. Rajan, "Ohmic Contact Formation Between a Metal and AlGaN/GaN Heterostructure via Graphene Insertion,”Applied Physics Letters102, 153501 (2013).
  126. D. Ko, X. Zhao, K.M. Reddy, O. Restrepo, N. Trivedi, W. Windl, N.P. Padture, F. Yang and E. Johnston-Halperin, “Role of Defects States in Charge Transport in Semiconductor Nanowires,”Journal of Applied Physics114, 043711 (2013).
  127. Y. Zhou, H.F. Garces, B.S. Senturk, A.L. Ortiz, N.P. Padture, “Room Temperature “One-Pot” Solution Synthesis of Nanoscale CsSnI3 Orthorhombic Pervoksite Thin Films and Particles,” Materials Letters, 110, 127-129 (2013).
  128. H.F. Garces, B.S. Senturk, and N.P. Padture, “In Situ Raman Spectroscopy Studies of High-Temperature Degradation of Thermal Barrier Coatings by Molten Silicate Deposits," Scripta Materialia, in press (2014).
  129. B.S. Senturk, H.F. Garces, A.L. Ortiz, G. Dwivedi, S. Sampath and N.P. Padture, “CMAS Resistant Plasma Sprayed Thermal Barrier Coatings Based on Y2O3-Stabilized ZrO2 with Al3+ and Ti4+ Solute Additions,” Journal of Thermal Spray Technology, in press (2014).
Patents
  1. N.P. Padture, M. Gell and P.G. Klemens “Ceramic materials for thermal barrier coatings,” United States Patent, No. 6,015,630 (2000).
  2. S. Suresh, A.E. Giannakopoulos, N.P. Padture and J. Jitcharoen, “Functionally-Graded Materials,” European Patent, No. 0968153 (2002).
  3. S. Suresh, A.E. Giannakopoulos, M. Olsson, R. Thampuran, O. Jorgensen, N.P. Padture and J. Jitcharoen, “Functionally-Graded Materials and the Engineering of Tribological Resistance at Surfaces,” United States Patent, No. 6,641,893 (2003).
  4. M. Gell, X. Ma, E.H. Jordan, N.P. Padture, L. Xie, T.D. Xiao, A. DeCramine, “Coatings, Materials, Articles, and Methods of Making Thereof,” United States Patent, No. 7,563,503 (2009).
  5. N.P. Padture, D. Li, W. Windl and S. Rajan, "Method for Making Graphene Devices," United States Provisional Patent, No. 61/227,469 (2009).
Refereed Conference Proceedings Papers
  1. N.P. Padture, H.M. Chan, B.R. Lawn and M.J. Readey, “The Role of Crystallization of an Intergranular Glassy Phase in Determining Grain Boundary Residual  Stresses in Debased Aluminas,” MRS Symposium Proceedings, Vol. 170, Tailored Interfaces in Composites, Eds. C. Pantano and E. Chen, Materials Research Society, Pittsburgh, PA, pp. 245-50 (1990).
  2. N.P. Padture, S.J.Bennison, J.L. Runyan, J. Rödel, H.M. Chan and B.R. Lawn, “Flaw Tolerant Al2O3-Al2TiO5 Composites,” Ceramic Transactions, Vol. 19, Advanced Composite Materials, Ed. M.D. Sacks, American Ceramic Society, Westerville, OH, pp. 715-21 (1991).
  3. N.P. Padture, “Microstructural Effects in the Machining of Ceramics,” Supergrind ’95 Proceedings, Eds. I.D. Marinescu and F. Gray, The Industrial Diamond Association of America, Skyland, NC, pp. 167-82 (1995).
  4. N.P. Padture, D.C. Pender and J. Jitcharoen, “Microstructural Tailoring of Ceramics for Mechanical Properties,” Proceedings of the VIth National Congress on the Mechanical Properties of Solids, Eds. A. Pajares, F.L. Cumbrera and F. Guiberteau, University of Extremadura, Badajoz, Spain, pp. 19-29 (1998).
  5. K.W. Schlichting, N.P. Padture and P.G. Klemens, “Thermal Conductivity of Zirconia Containing Yttria,” Proceedings of Thermal Conductivity 25, Eds. C. Uher and D. Morelli, Technomic Publishing Co., Lancaster, PA, pp. 162-67 (2000).
  6. X. Ma, T.D. Xiao, J. Roth, L. Xie, E.H. Jordan, N.P. Padture, M. Gell, X.Q. Chen and J.R. Price, “Thick Thermal Barrier Coatings with Controlled Microstructures Using Solution Precursor Plasma Spray Process,” Proceedings of International Thermal Spray Conference: Thermal Spray 2004, Ed. D. von Hofe, ASM International, Materials Park, OH, pp. 1103-1109 (2004).
  7. E.Z. Solvas, R. Poyato, D. Gómez-García, A. Domínguez-Rodríguez and N.P. Padture, “High-Temperature Mechanical Properties of Al2O3/SWNT (10 vol%) and Al2O3/Graphite (10 vol%) Composites,” (in Spanish) TRATERMAT 05, Eds. A. Domínguez-Rodríguez, J.A. Odriozola, D. Gómez-García and F. Guteriérrez Mora, CSIC and University of Seville, Seville, Spain, pp. 369-374 (2005).
  8. M. Gell, F. Wu, E.H. Jordan, N.P. Padture, B.M. Cetegen, L. Xie, A. Ozturk, A.D. Jadhav, D. Chen and X. Ma, "The Solution Precursor Plasma Spray Process for Making Durable Thermal Barrier Coatings," Proceedings of the ASME Turbo Expo 2005, ASME, New York, Vol. 2, pp. 905-911 (2005).
Book Sections (Invited)
  1. N.P. Padture “Hertzian Contacts,” Encyclopedia of Materials: Science and Technology, Eds. K.H.J. Buschow, R.W. Cahn, M.C. Flemings, B. Ilschner, E. Kramer and S. Mahajan, Elsevier, New York, NY, pp. 3750-52 (2001).

 

 

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