Elizabeth Mamros

Elizabeth Mamros

Assistant Professor of Mechanical Engineering
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Educational Background:

  • B.S. Mechanical Engineering, Penn State Behrend
  • M.S. Mechanical Engineering, University of New Hampshire
  • Ph.D. Mechanical Engineering, University of New Hampshire

Research Interests:

  • Advanced manufacturing
  • Sheet metal forming
  • Incremental forming
  • Trauma fixation hardware
  • Additive manufacturing
  • Material characterization

Courses Taught

  • Manufacturing Processes (MECH 355)
  • Computational Analysis (ENGR 214)

Selected Honors and Awards:

  • Swanson Fellow, 2023-2026

Selected Publications:

Mamros, E.M., Polec, L.A., Maaß, F., Clausmeyer, T., Tekkaya, A.E., Kinsey, B.L., and Ha, J. (2023) Examination of bending stress superposition effect on martensite transformation in austenitic stainless steels. TMS. International Conference on the Technology of Plasticity.

Mamros, E.M., Maaß, F., Hahn, M., Tekkaya, A.E., Ha, J., and Kinsey, B.L. (2022) Superposing tensile stresses into single point incremental forming to affect martensitic transformation of SS304. International Deep Drawing Research Group Conference. IOP Conf. Ser.: Mater. Sci. Eng., 1238(1), p. 012085. doi: 10.1088/1757-899X/1238/1/012085.

Mamros, E.M., Mayer, S.M., Banerjee, D., Iadicola, M., Kinsey, B.L., and Ha, J. (2022) Plastic Anisotropy Evolution of SS316L and Modeling for Novel Cruciform Specimen. International Journal of Mechanical Sciences, 234. doi:10.1016/j.ijmecsci.2022.107663.

Feng, Z., Mamros, E.M., Ha, J., Kinsey, B.L., and Knezevic, M. (2021) Modeling of Plasticity-Induced Martensitic Transformation to Achieve Hierarchical, Heterogeneous, and Tailored Microstructures in Stainless Steels. CIRP Journal of Manufacturing Science and Technology, 33, pp. 389–397. doi:10.1016/j.cirpj.2021.04.006.

Mamros, E.M., Ha, J., Korkolis, Y.P., and Kinsey, B.L. (2020) Experimental Investigation and Plasticity Modeling of SS316L Microtubes Under Varying Deformation Paths. Journal of Micro and Nano-Manufacturing. doi:10.1115/1.4049364.

Location

269 Breakiron Building

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