Materials engineering; materials sciences; metallurgy; electron backscatter diffraction; intermetallics electron microscopy; metal matrix composites; titanium alloys and composites; mechanical behavior.
Academic Keys Who's Who in Engineering Education (WWEE), 2006
Who's Who of Emerging Leaders First Edition, 2007
Ph.D, Materials Science and Engineering, University of Dayton 1997
M.S., Materials Science and Engineering, University of Dayton 1993
C.J. Boehlert, Z. Chen, I. Gutiérrez-Urrutiad, J. Llorcab, M.T. Pérez-Prado, "In situ analysis of the tensile and tensile-creep deformation mechanisms in rolled AZ31," Science Direct Elsevier, Vol. 60, Issue 4, February 2012, Pages 1889-1904.
C.J. Boehlert, S. Tamirisakandala, W.C. Curtin, and D.B. Miracle, "Assessment of In Situ TiB Whisker Tensile Strength and Optimization ofTiB Reinforced Titanium Alloy Design," Scripta Materialia, 61 (2009) 245-248.
C.J. Boehlert and W. Chen, "The Elevated-Temperature Creep Behavior ofBoron-Modified Ti-6Al-4V(wt.%)," Materials Transactions, Vol. 50 No. 7(2009) 1690-1703.
C.J. Boehlert, S.C. Longanbach, and T.R. Bieler, "The effect of thermomechanical processing on the creep behavior of Udimet Alloy 188," Philosophical Magazine, Vol. 88 Issue 5 (2008) 641-664. (DOI:10.1080/14786430801944836)
C.J. Cowen and C.J. Boehlert, "Microstructure, Creep, and Tensile Behavior of a Ti-15Al-33Nb (at.%) Beta+Orthorhombic Alloy," Philosophical Magazine, vol. 86 issue 1 (2006) 99-124.
MSU Scholars ID