̽̽

Frederic Sansoz

Professor, Department of Mechanical Engineering

ASME Fellow

frederic.sansoz@uvm.edu
(802) 656-3837
Frederic Sansoz
frederic.sansoz@uvm.edu
+18026563837
Alma mater(s)
  • Ph.D., Materials Science and Engineering, Ecole des Mines de Paris
  • M.S., Materials Science, ISAE-ENSMA, France
  • B.S., Mechanical and Aerospace Engineering, ISAE-ENSMA, France
Affiliated Department(s)
  • Department of Mechanical Engineering
  • Materials Science Graduate Program
  • Member of the ASME, MRS, TMS and SF2M professional societies

BIO

Frederic Sansoz has earned a BS degree in mechanical and aerospace engineering and MS degree in materials science and engineering from the Ecole Nationale Supérieure de Mécanique et Aérotechnique (ISAE - ENSMA) in France in 1996, and a PhD degree with honors in materials science and engineering from Ecole des Mines in Paris in 2000. Before moving to Vermont, he was a post-doctoral fellow in mechanical engineering at the Johns Hopkins University until 2003. Sansoz received the National Science Foundation CAREER award in 2008, and two faculty awards for excellence in research at ̽̽ in 2009 and 2017. His research focuses on understanding the mechanics and physics of metallic nanomaterials and has been published in high-impact journals such as Nature Materials, Nature Communications and Nano Letters. Also, he is passionate about teaching Materials Science to students at all levels, from middle-school to doctoral students.

Related Links:

Courses

  • ME6550 - Multiscale Modeling
  • ME2110 - Materials Engineering

Awards and Achievements

  • 2019 Elected Fellow of the American Society of Mechanical Engineers
  • 2017 CEMS Faculty Award for Excellence in Research
  • 2011 Named among “World's Nanotechnology Thought Leaders” by AzoNano.com
  • 2009 CEMS Milt Silveira Junior Faculty Award
  • 2008 National Science Foundation CAREER Award

Area(s) of expertise

Science and Engineering of Nanostructured Materials, Small-scale Mechanics, Atomistic Simulation and Multiscale Modeling

Bio

Frederic Sansoz has earned a BS degree in mechanical and aerospace engineering and MS degree in materials science and engineering from the Ecole Nationale Supérieure de Mécanique et Aérotechnique (ISAE - ENSMA) in France in 1996, and a PhD degree with honors in materials science and engineering from Ecole des Mines in Paris in 2000. Before moving to Vermont, he was a post-doctoral fellow in mechanical engineering at the Johns Hopkins University until 2003. Sansoz received the National Science Foundation CAREER award in 2008, and two faculty awards for excellence in research at ̽̽ in 2009 and 2017. His research focuses on understanding the mechanics and physics of metallic nanomaterials and has been published in high-impact journals such as Nature Materials, Nature Communications and Nano Letters. Also, he is passionate about teaching Materials Science to students at all levels, from middle-school to doctoral students.

Related Links:

Courses

  • ME6550 - Multiscale Modeling
  • ME2110 - Materials Engineering

Awards and Achievements

  • 2019 Elected Fellow of the American Society of Mechanical Engineers
  • 2017 CEMS Faculty Award for Excellence in Research
  • 2011 Named among “World's Nanotechnology Thought Leaders” by AzoNano.com
  • 2009 CEMS Milt Silveira Junior Faculty Award
  • 2008 National Science Foundation CAREER Award

Areas of Expertise

Science and Engineering of Nanostructured Materials, Small-scale Mechanics, Atomistic Simulation and Multiscale Modeling

Publications

  • L. Capaldi and F. Sansoz. High-temperature Active Oxidation of
    Nanocrystalline Silicon-Carbide: A Reactive Force-Field Molecular Dynamics
    Study. Acta Materialia, 258, 119229 (2023).
  • T. Nenninger and F. Sansoz. Local atomic environment analysis of short
    and long-range solute-solute interactions in a symmetric tilt grain
    boundary. Scripta Materialia, 222, 115045 (2023)
  • E. A. Picard and F. Sansoz. Ni Solute Segregation and Associated Plastic
    Deformation Mechanisms into Random FCC Ag, BCC Nb and HCP Zr
    Polycrystals. Acta Materialia, 240, 118367 (2022)
  • F. Sansoz and X. Ke. Hall-Petch Strengthening Limit through Partially
    Active Segregation in Nanocrystalline Ag-Cu Alloys. Acta Materialia,
    225, 117560 (2022)
  • Q. Zhu, L. Kong, H. Lu, Q. Huang, Y. Chen, Y. Liu, W. Yang, Z. Zhang, F.
    Sansoz, H. Zhou, J. Wang. Revealing extreme twin-boundary shear
    deformability in metallic nanocrystals, Science advances 7 (36),
    eabe4758 (2021)
  • X. Ke, J. Ye, Z. Pan, J. Geng, M. F. Besser, D. Qu, A. Caro, J. Marian,
    R. T. Ott, Y. M. Wang, F. Sansoz. Ideal Maximum Strengths and
    Defect-induced Softening in Nanocrystalline-Nanotwinned Metals, Nature
    Materials, 18, 1207–1214 (2019)
  • L.Zhong, F. Sansoz, Y. He, C. Wang, Z. Zhang, S. X. Mao. Slip-activated
    surface creep with room-temperature super-elongation in metallic
    nanocrystals, Nature Materials, 16, 439-445 (2017)
  • Y.M. Wang, F. Sansoz, T.B. LaGrange, R.T. Ott, T.W. Barbee Jr, A.V.
    Hamza. Defective Twin Boundaries in Nanotwinned Metals, Nature
    Materials, 12, 697 - 702 (2013)
  • J. Wang, F. Sansoz, J. Huang, Y. Liu, S. Sun, Z. Zhang, S.X. Mao. Near
    Ideal Theoretical Strength in Gold Nanowires containing Angstrom Scale
    Twins, Nature Communications, 4, 1742 (2013)