Bruce A Pint Section Head, Materials in Extremes Contact pintba@ornl.gov All Publications Effect of APS flash bond coatings and curvature on TBC performance on rod specimens Report on Exploration of New FeCrAl Heat Variants with Improved Properties Corrosion of 316H Stainless Steel in Molten NaCl-MgCl2 With and Without Mg as a Redox Control Additive Lifetime modeling for a supercritical CO2-molten salt CSP power block Steam oxidation behavior of Ni-base superalloys 690, 725 and X-750 at 600 and 650 °C High Temperature Oxidation Lifetime Modelling of thin-walled components Validation of Lifetime Models for Recuperator Foils Through Long-Term Laboratory and Engine Testing Effect of APS flash bond coatings on furnace cycle lifetime of disks and rods Methodologies for Evaluation of Corrosion Protection for Ductile Iron Pipe Lifetime Model Development for Supercritical CO2 CSP Systems Re‐establishing the paradigm for evaluating halide salt compatibility to study commercial chloride salts at 600°C–800°C Effect of pressure and impurities on oxidation in supercritical CO2 Purification of Chloride Salts for Concentrated Solar Applications Effect of Pressure and Thermal Cycling on Long-Term Oxidation in Supercritical CO2... High Temperature Oxidation Lifetime Modeling of Commercial Wrought NiCr The Effect of HVOF Bond Coating with APS Flash Coating on TBC Performance 3D Microscopy to Assess the Effect of High Temperature Cyclic Oxidation on the Deformation of Cast and ODS FeCrAlY Alloys The Effect of Coating Composition and Geometry on Thermal Barrier Coatings Lifetime STEM and APT characterization of scale formation on a La,Hf,Ti-doped NiCrAl model alloy The Effect of CO2 Pressure on Chromia Scale Microstructure at 750°C Development of Creep-Resistant, Alumina-Forming Ferrous Alloys for High-Temperature Structural Use Performance of Wrought Superalloys in Extreme Environments Cyclic Oxidation Behavior of Ni-Cr Alloys in Wet Air (C2018-11233) The Effect of Impurities and Pressure on Oxidation in CO2 at 700°-800°C The Use of Glow Discharge Optical Emission Spectroscopy to Quantify Internal Carburization in Supercritical CO2 Pagination First page « First Previous page ‹‹ … Page 5 Current page 6 Page 7 … Next page ›› Last page Last » Key Links Curriculum Vitae Google Scholar ORCID Organizations Physical Sciences Directorate Materials Science and Technology Division Materials in Extremes Section Corrosion Science and Technology Group
