Seok Su Sohn

Seok Su Sohn

Korea University

Assistant Professor

Department of Materials Science and Engineering

Research Area

  • #Materials science
  • #Composite material
  • #Metallurgy
  • #Ultimate tensile strength
  • #Austenite
  • #Ductility
  • #Martensite
  • #Yield (engineering)
  • #Plasticity
  • #Alloy

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Related papers to
‘ Materials science ‘ : 79

  • Understanding the physical metallurgy of the CoCrFeMnNi high-entropy alloy: an atomistic simulation study

    2018/12

    9.2 Impact Factor

    133 citations

    Won-Mi Choi, Yong Hee Jo, Seok Su Sohn, Sunghak Lee, Byeong-Joo Lee

    DOI : 10.1038/S41524-017-0060-9

    • #Materials science
    • #Thermodynamics
    • #Alloy
    • #Monte Carlo method
    • #Lattice (order)
    • #Molecular dynamics
    • #Entropy (information theory)
    • #Solid solution strengthening
    • #Physical metallurgy
    • #Critical resolved shear stress

All papers authored by
‘ Seok Su Sohn ’ : 82

  • Cryogenic strength improvement by utilizing room-temperature deformation twinning in a partially recrystallized VCrMnFeCoNi high-entropy alloy

    2017/06
    NATURE COMMUNICATIONS

    12.1 Impact Factor

    157 citations

    Yong Hee Jo, Sung Young Jung, Won-Mi Choi, Seok Su Sohn, Haena Kim, Byeong-Joo Lee, Nack J. Kim, Sunghak Lee

    DOI : 10.1038/NCOMMS15719

    • #Biology
    • #Composite material
    • #Molecular biology
    • #Alloy
    • #Microstructure
    • #Grain size
    • #Ductility
    • #Yield (engineering)
    • #Fracture toughness
    • #Crystal twinning
    • #High entropy alloys

Related papers to
‘ Materials science ‘ : 79

  • Understanding the physical metallurgy of the CoCrFeMnNi high-entropy alloy: an atomistic simulation study

    2018/12
    NPJ COMPUTATIONAL MATERIALS

    9.2 Impact Factor

    133 citations

    Won-Mi Choi, Yong Hee Jo, Seok Su Sohn, Sunghak Lee, Byeong-Joo Lee

    DOI : 10.1038/S41524-017-0060-9

    • #Materials science
    • #Thermodynamics
    • #Alloy
    • #Monte Carlo method
    • #Lattice (order)
    • #Molecular dynamics
    • #Entropy (information theory)
    • #Solid solution strengthening
    • #Physical metallurgy
    • #Critical resolved shear stress
  • Novel ultra-high-strength (ferrite + austenite) duplex lightweight steels achieved by fine dislocation substructures (Taylor lattices), grain refinement, and partial recrystallization

    2015/09
    ACTA MATERIALIA

    5.1 Impact Factor

    117 citations

    Seok Su Sohn, Hyejin Song, Byeong-Chan Suh, Jai-Hyun Kwak, Byeong-Joo Lee, Nack J. Kim, Sunghak Lee

    DOI : 10.1016/J.ACTAMAT.2015.06.024

    • #Materials science
    • #Metallurgy
    • #Ultimate tensile strength
    • #Annealing (metallurgy)
    • #Dislocation
    • #Ductility
    • #Recrystallization (chemistry)
    • #Austenite
    • #Tensile testing
    • #Specific strength

Get access to
Contact information

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All papers authored by
‘ Seok Su Sohn ’ : 82

  • Cryogenic strength improvement by utilizing room-temperature deformation twinning in a partially recrystallized VCrMnFeCoNi high-entropy alloy

    2017/06
    NATURE COMMUNICATIONS

    12.1 Impact Factor

    157 citations

    Yong Hee Jo, Sung Young Jung, Won-Mi Choi, Seok Su Sohn, Haena Kim, Byeong-Joo Lee, Nack J. Kim, Sunghak Lee

    DOI : 10.1038/NCOMMS15719

    • #Biology
    • #Composite material
    • #Molecular biology
    • #Alloy
    • #Microstructure
    • #Grain size
    • #Ductility
    • #Yield (engineering)
    • #Fracture toughness
    • #Crystal twinning
    • #High entropy alloys
  • Understanding the physical metallurgy of the CoCrFeMnNi high-entropy alloy: an atomistic simulation study

    2018/12
    NPJ COMPUTATIONAL MATERIALS

    9.2 Impact Factor

    133 citations

    Won-Mi Choi, Yong Hee Jo, Seok Su Sohn, Sunghak Lee, Byeong-Joo Lee

    DOI : 10.1038/S41524-017-0060-9

    • #Materials science
    • #Thermodynamics
    • #Alloy
    • #Monte Carlo method
    • #Lattice (order)
    • #Molecular dynamics
    • #Entropy (information theory)
    • #Solid solution strengthening
    • #Physical metallurgy
    • #Critical resolved shear stress

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