The effect of interface structures on deformation behavior of Cu/Ni multilayer by molecular dynamics

[1] Zhang Y(2022)Tensile and failure behaviors of Cu/Nb nanolaminates: the effects of loading direction, layer thickness, and annealing Acta Mater. 240 118346-181

[2] Gigax JG(2022)Immiscible tri-phase Cu/Ag/Cu/Nb nanolamellar composite structures generate exceptional strength-conductivity and thermal stability combination in Cu-based composites Mater. Sci. Eng. A 859 144228-65

[3] Nizolek TJ(2023)Enhancing fatigue resistance of nanocrystalline Ni/Ni-W laminated composites Scripta Mater. 222 114995-223

[4] Carpenter JS(2023)The effect of interface orientation on deformation behavior of Cu/Al multilayer during tensile process Mater. Today Commun. 34 105133-192

[5] Schneider MM(2017)Shear strengths of FCC-FCC cube-on-cube interfaces Scripta Mater. 130 178-330

[6] Li N(2020)Shearing dominated by the coupling of the interfacial misfit and atomic bonding at the FCC (111) semi-coherent interfaces Mater. Des. 186 108294-54

[7] Capolungo L(2019)Understanding the strength softening of Zr/Mo and Zr/Ti nanostructured multilayers Scripta Mater. 172 61-1933

[8] McCabe RJ(2021)Mechanical properties and dislocation evolution of Cu–Fe interfaces from molecular dynamics simulation Mater. Chem. Phys. 262 124270-32

[9] Zeng L(2019)Molecular dynamics simulations of the tensile responses and fracture mechanisms of Ti2AlN/TiAl composite Theoret. Appl. Fract. Mech. 101 217-37

[10] Zeng L(2020)Ultra-high strength and plasticity mediated by partial dislocations and defect networks: Part I: texture effect Acta Mater. 185 181-120

[1] Zhang Y(2022)Tensile and failure behaviors of Cu/Nb nanolaminates: the effects of loading direction, layer thickness, and annealing Acta Mater. 240 118346-181

[2] Gigax JG(2022)Immiscible tri-phase Cu/Ag/Cu/Nb nanolamellar composite structures generate exceptional strength-conductivity and thermal stability combination in Cu-based composites Mater. Sci. Eng. A 859 144228-65

[3] Nizolek TJ(2023)Enhancing fatigue resistance of nanocrystalline Ni/Ni-W laminated composites Scripta Mater. 222 114995-223

[4] Carpenter JS(2023)The effect of interface orientation on deformation behavior of Cu/Al multilayer during tensile process Mater. Today Commun. 34 105133-192

[5] Schneider MM(2017)Shear strengths of FCC-FCC cube-on-cube interfaces Scripta Mater. 130 178-330

[6] Li N(2020)Shearing dominated by the coupling of the interfacial misfit and atomic bonding at the FCC (111) semi-coherent interfaces Mater. Des. 186 108294-54

[7] Capolungo L(2019)Understanding the strength softening of Zr/Mo and Zr/Ti nanostructured multilayers Scripta Mater. 172 61-1933

[8] McCabe RJ(2021)Mechanical properties and dislocation evolution of Cu–Fe interfaces from molecular dynamics simulation Mater. Chem. Phys. 262 124270-32

[9] Zeng L(2019)Molecular dynamics simulations of the tensile responses and fracture mechanisms of Ti2AlN/TiAl composite Theoret. Appl. Fract. Mech. 101 217-37

[10] Zeng L(2020)Ultra-high strength and plasticity mediated by partial dislocations and defect networks: Part I: texture effect Acta Mater. 185 181-120