Thomas Rudolphi

Title(s):

Professor Emeritus, Aerospace Engineering

Office

1200 Howe
537 Bissell Rd.
Ames, IA 500111096

Information

Education

  • Ph.D., Theoretical and Applied Mechanics, University of Illinois, 1977
  • M.S., Theoretical and Applied Mechanics, University of Illinois, 1973
  • B.S., Engineering Mechanics, University of Illinois, 1969

Interest Areas

  • Computational Mechanics
  • Solid Mechanics
  • Structures

Publications

  • W.B. Edwards, D. Taylor, T.J. Rudolphi, J.C. Gillette and T. R. Derrick, “Effects of Running Speed on a Probabilistic Stress Fracture Model”, Clinical Biomechanics, 25: 372-377, 2010.
  • T-H Baek and T. J. Rudolphi, “A Hybrid Stress Measurement Using only x-displacements by Phase Shifting Method with Fourier Transform (PSM/FT) in Laser Speckle Interferometry and Least Squares Method”, Int. J. of Precision Engineering and Manufacturing, 11(1): 49:54, 2010.
  • W.B. Edwards, D. Taylor, T.J. Rudolphi, J.C. Gillette and T. R. Derrick, “Effects of Stride Length and Running Mileage on a Probabilistic Stress Fracture Model”, Medicine & Science in Sports & Exercise, accepted for publication, 2177-2184, Apr. 2009.
  • Wang, K., Lu, G., and T. J. Rudolphi, “Modeling Rheological Behavior of Highly Flowable Mortar using Concepts of Particle and Fluid Mechanics”, Cement and Concrete Composites, 30, 1-12, 2008.
  • Rudolphi, T. J., Reicks, A., “Viscoelastic Indentation and Resistance to Motion of Conveyor Belts using a Generalized Maxwell Model of the Backing Material”, Journal of Rubber Chemistry and Technology, June, 2006.
  • Liu, Y. J., Rudolphi, T. J., “New Identities for Fundamental Solutions and Their Applications to Non-singular Boundary Element Formulations”, Computational Mechanics 24(4): 286-292, 1999.

Departments

Affiliations

Interests

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