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David Morrison

In this Section

Associate Professor
Mechanical & Aeronautical Engineering

205 CAMP
Clarkson University
PO Box 5725
Potsdam, NY 13699-5725

Phone: 315-268-6585
E-mail: djm@clarkson.edu
Department Web site
Research Web site

Educational Background:
Ph.D. Materials Science and Engineering, University of Michigan, Ann Arbor, Michigan (1989)
M.B.A. Finance, University of Colorado, Colorado Springs, Colorado (1982)
M.S. Metallurgy, Michigan State University, East Lansing, Michigan (1973)
B.S. Engineering Mechanics, USAF Academy, Colorado Springs, Colorado (1972)

Research Interests:

  • Materials science
  • Fracture
  • Fatigue
  • Mechanical behavior of materials
  • Cyclic plasticity
  • Hydrogen Embrittlement
  • Ultrafine grain materials
  • Magnetomechanical effects
  • Weldability of advanced alloys

Memberships:

  • The Metallurgical Society of AIME (TMS)
  • ASM International
  • American Society of Mechanical Engineers
  • American Society for Engineering Education

Selected Publications:

“Hydrogen Diffusion in Alloys 686 (UNS N06686) and 59 (UNS N06059),” J.J.M. Jebaraj, D.J. Morrison, and I. I. Suni, Corrosion, in press, DOI: 10.5006/1410, 2014.

“Effect of Nitriding on the Hydrogen Diffusion Coefficient through AISI 4340,” J.J.M. Jebaraj, D.J. Morrison, J.B. McLaughlin, and I. I. Suni, Journal of the Electrochemical Society, 161 (5), C261-C267, DOI: 10.1149/2.077405jes, 2014.

“Indentation Size Effects (ISE) in Copper Subjected to Severe Plastic Deformation (SPD),” J.D. Gale, A. Achuthan, and D.J. Morrison, Metallurgical and Materials Transactions A, 45A, 2487-2497, DOI 10.1007/s11661-014-2201-9, 2014.

“Characterization of Fatigue Fractures in Closed-Cell Aluminum Foam Using X-ray Micro computed Tomography,” O. L. Kafka, M. D. Ingraham, D. J. Morrison, K. A. Issen, Journal of Materials Engineering and Performance, 23, 759-765, DOI: 10.1007/s11665-013-0850-2, 2014.

“Hydrogen Diffusion Coefficients through Inconel 718 in Different Metallurgical Conditions,” J.J.M. Jebaraj, D.J. Morrison, and I. I. Suni, Corrosion Science,  80, 517-522, DOI:10.1016/j.corsci.2013.11.002, 2014.

"Cyclic Plasticity of Polycrystalline Nickel under Axial-Torsional Loading,” R. Batane, D.J. Morrison, and J.C. Moosbrugger, Materials Science and Engineering A, 528, 467-473, doi:10.1016/j.msea.2010.09.039, 2010.

"Self-healing Epoxy Composites Based on the use of Nanoporous Silica Capsules,” J.G. Kirk, S. Naik, D. Volkov, J.C. Moosbrugger, D.J. Morrison, and I. Sokolov, International Journal of Fracture, 159, 101-102, DOI 10.1007/s10704-009-9375-y, 2009.

“Low Cycle Fatigue of Aluminum Foam,” M. D. Ingraham, C. J. DeMaria, K. A. Issen, and D. J. Morrison, Materials Science and Engineering A, 504, 150-156, 2009.

"Modeling Aspects of Low Plastic Strain Amplitude Multiaxial Cyclic Plasticity in Conventional and Ultrafine Grain Nickel,”  J.C. Moosbrugger, N.R. Batane, and D.J. Morrison, International Journal of Plasticity, 24, 1837-1862, 2008.

“Cyclic Stress-Strain Behavior of Conventional Grain and Ultrafine Grain Nickel under Biaxial Straining,” N.R. Batane, D.J. Morrison, and J.C. Moosbrugger, Scripta Materialia, 58, 955-958, 2008.

“Cyclic Plasticity of Single Crystal Nickel Oriented for Single Slip,” Y. Jia, D.J. Morrison, and J.C. Moosbrugger, Materials Science and Engineering A, 492, 80-87, 2008.

"Finite Element Simulation of PSB Macro-band Nucleation and Propagation in Single Crystal Nickel Cycled at Low Plastic Strain Amplitudes," D. Zhou, J.C. Moosbrugger, and D.J. Morrison, International Journal of Plasticity, 22, 1336-1366, 2006.

"The Influence of Magnetostriction on the Shape of the Hysteresis Loop of Cyclically Deformed Single Crystal Nickel," Y. Jia, D.J. Morrison, and J.C. Moosbrugger, Scripta Materialia, 53, 1025-1029, 2005.

"A Substructure Mixtures Model for the Single Slip Cyclic Plasticity of Single Crystal Nickel at Low Plastic Strain Amplitudes," D. Zhou, J.C. Moosbrugger, Y. Jia, and D.J. Morrison, International Journal of Plasticity, 21, 2344-2368, 2005.