W. B. Carter scite author profile

A novel deposition technique, combustion chemical vapor deposition, was used to deposit thin films of alumina on Ni-20Cr. Using a solution of 0.00135 M Al acetylacetonate in ethanol and a deposition time of 40 mm, theta-phase alumina was deposited at temperatures of approximately 850, 1050, and 1250°C, with some alpha alumina present at the latter temperature. The theta-phase grain size was found to vary with deposition temperature, with smaller grain sizes (2-8 nm) observed with lower deposition temperatures. The 850°C deposition temperature was selected for kinetic studies in order to examine the effects of the alumina coatings on suppressing substrate oxidation. The coatings afforded some oxidation protection even during the deposition process itself, which occurs within the oxidizing environment of a flame. Kinetic measurements showed that the alumina coatings slowed oxidation at all test temperatures (800-1100°C). This reduction is attributed to both a decrease in the amount of NiO formed and to a Cr203 scale which thickened more slowly. Annealing studies were performed on coated Ni-2 OCr specimens to evaluate the effects of a vacuum heat-treatment (4 h at 1080°C, 6 x 10_B Torr) on oxidation resistance in air. Alumina-coated and annealed specimens showed further reductions in the oxidation kinetics. This additional reduction in kinetics is associated with the presence of a layer of NiCr2O4 which contains some Al, and which is formed during the annealing process. The NiCr2O4 formation is facilitated by the theta-A1202, as it was determined that uncoated, flame-treated samples did not form NiCr2O4 during the anneal.

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Nanohardness and fracture toughness of combustion chemical vapor deposition deposited yittria stabilized zirconia–alumina films

Stollberg

Carter

Hampikian

2005

Thin Solid Films

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A study of polycrystalline Cd(Zn, Mn)Te/Cds films and interfaces

Ringel

Sudharsanan

Rohatgi

et al. 1990

Journal of Elec Materi

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Interaction of Chemically Vapor Deposited YBa₂Cu₃O_x with Yttria‐Stabilized Zirconia Substrates

Shapiro

Lackey

et al. 1991

Journal of the American Ceramic Society

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Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831High-resolution transmission electron microscopy and optical diffractograms have revealed' that chemically vapor deposited films of superconducting YBazCu30, react to form an interaction layer with single-crystal yttriastabilized zirconia. The approximately 5 nm thick interlayer was identified as BaZr03. Zirconium was also found.to diffuse through the entire YBazCu30, film. [

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W. B. Carter

Photoluminescence study of ZnO varistor stability

Alumina Coatings Applied via Combustion Chemical Vapor Deposition and Their Effects on the Oxidation of a Ni‐Base Chromia Former

Nanohardness and fracture toughness of combustion chemical vapor deposition deposited yittria stabilized zirconia–alumina films

A study of polycrystalline Cd(Zn, Mn)Te/Cds films and interfaces

Interaction of Chemically Vapor Deposited YBa₂Cu₃O_x with Yttria‐Stabilized Zirconia Substrates

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W. B. Carter

Photoluminescence study of ZnO varistor stability

Alumina Coatings Applied via Combustion Chemical Vapor Deposition and Their Effects on the Oxidation of a Ni‐Base Chromia Former

Nanohardness and fracture toughness of combustion chemical vapor deposition deposited yittria stabilized zirconia–alumina films

A study of polycrystalline Cd(Zn, Mn)Te/Cds films and interfaces

Interaction of Chemically Vapor Deposited YBa2Cu3Ox with Yttria‐Stabilized Zirconia Substrates

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Interaction of Chemically Vapor Deposited YBa₂Cu₃O_x with Yttria‐Stabilized Zirconia Substrates