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Corrosion Science & Technology Group received the Distinguished Organization Award, for more than 70 years of leadership and outstanding contributions to the development and demonstration of solutions to corrosion-related problems and critical issues associated with the development and deployment of high-efficiency and cost-effect transportation and power generation technologies for the U.S. Department of Energy and its predecessor agencies (2016).

Bruce Pint, Technical Achievement Award, for developing a comprehensive theory to explain the effects of minor alloy additions (so called "reactive" elements, e.g. Y, Hf and La) in improving oxidation resistance ( 2016).


  Corrosion Kinetics in simulated high-temperature/high-pressure environments

The Corrosion Science and Technology Group in the Materials Science and Technology Division at the Oak Ridge National Laboratory does a broad range of corrosion research to support all forms of transportation and energy including fossil fuels, nuclear and fusion.  We develop solutions to environmental degradation problems through application of fundamental mechanistic understanding, advanced, characterization techniques, laboratory simulation of extreme environments, extensive materials databases, industrial collaborations, field studies, and expertise of our eight technicians and eight Ph.D. scientists.  Our staff has experience with a broad range of materials including conventional alloys (i.e. steels and aluminum), superalloys, refractory metals, intermetallics, refractory and advanced ceramics, composites and coatings.  A specialty area is creating model alloys to assist in alloy development as well as mechanistic studies.  The group has extensive laboratory facilities including high temperature (steam, mixed gases, etc.), high pressure, sulfidizing and carburizing environments, liquid metals, molten salts, bio-fuels and other renewables, and aqueous and atmospheric corrosion.  We develop solutions to corrosion issues ranging from basic failure analysis, corrosion monitoring and materials selection to new alloy design and component lifetime predictions.  An area of increased interest has been the effect of environment on mechanical properties using both ex-situ and in-situ testing of creep and fatigue in environments such as steam, molten salts and simulated exhaust.


PINT, Bruce A.
Group Leader 865.576.2897  865.241.0215
Administrative Assistant 865.574.4484 865.574.6098