General InformationPublications

  • Gita Talmage, 2011, "Thermal structural effects in a gas lubricated foil journal bearing", Tribology Transactions, 54, (5), pp. 701-713
  • Marc Carpino and Gita Talmage, 2010, "Minimum film thickness in a gas foil journal bearing with an unbalanced rotor", Tribology Transactions, 53, (3), pp. 433-439
  • Marc Carpino and Gita Talmage, 2008, "Sub-foil stiffness effects in gas lubricated foil journal bearings", Tribology Transactions, 51, (5), pp. 602-608
  • Marc Carpino and Gita Talmage, 2006, "Prediction of rotor dynamic coefficients in gas lubricated foil journal bearings with corrugated sub-foils", Tribology Transactions, 49, pp. 400-409
  • Marc Carpino and Gita Talmage, 2003, "A fully coupled finite element formulation for elastically supported foil bearings", Tribology Transactions, 46, (4), pp. 560-565
  • J. Liu, Gita Talmage and J. S. Walker, 2001, "Stability of the base flow to axisymmetric and plane-polar disturbances in an electrically driven flow between infinitely long, concentric cylinders", Journal of Fluids Engineering, 123, (1), pp. 31-42
  • Gita Talmage, S.-H. Shyu, J. M. Lopez and K. S. Walker, 2000, "Inertial effects in the rotationally driven melt motion during the Czochralski growth of silicon crystals with a strong axial magnetic field", Zeitschrift für angewandte Mathematik und Physik ZAMP, 51, (2), pp. 267-289
  • T. Ovaert and Gita Talmage, 1999, "The temperature of sliding contacts: Application to the anisotropic medium of continuous fiber-reinforced composites", Tribology Transactions, 42, (3), pp. 654-660
  • Gita Talmage, S.-H. Shyu, M. J. Money, S. Tavener and K. A. Cliffe, 1998, "Inertial effects on electrically conducting fluids in the presence of transverse magnetic fields: An example problem", International Journal of Engineering Science, 36, (1), pp. 1-14
  • Gita Talmage and M. Carpino, 1997, "A pseudospectral-finite difference analysis of an infinitely wide slider bearing with thermal and inertial effects", Tribology Transactions, 40, (2), pp. 251-258


The Department of Mechanical and Nuclear Engineering at Penn State is one of the nation’s largest and most successful engineering departments. We serve more than 1,000 undergraduate students and more than 330 graduate students

We offer B.S. degrees in mechanical engineering and nuclear engineering as well as resident (M.S., Ph.D.) and online (M.S., M.Eng.) graduate degrees in nuclear engineering and mechanical engineering. MNE's strength is in offering hands-on experience in highly relevant research areas, such as energy, homeland security, biomedical devices, and transportation systems.

Department of Mechanical and Nuclear Engineering

137 Reber Building

The Pennsylvania State University

University Park, PA 16802-4400

Phone: 814-865-2519