Cu-Nb and Cu-Ag nano-composites

Atomprobe results on a Cu-Ag-Nb wire
Overview paper on ultra high strength Cu composites
Metals_at_extremes-MRS_Bulletin-Dec2010_[...]
PDF-Dokument [5.5 MB]
Shear-Induced Mixing Governs Codeformation of Crystalline-Amorphous Nanolaminates
Deformation of ductile crystalline-amorphous nanolaminates is not well understood due to the interplay of interface mechanics, shear banding, and deformation-driven chemical mixing. Here we present indentation experiments on 10 nm nanocrystalline Cu–100 nm amorphous CuZr model multilayers to study these mechanisms down to the atomic scale. By using correlative atom probe tomography and TEM we find that crystallographic slip bands in the Cu layers coincide with noncrystallographic shear bands in the amorphous CuZr layers.
Guo Phys Rev Lett 113.035501 CuZr - Cu l[...]
PDF-Dokument [2.1 MB]
Simulation of shear banding in heterophase co-deformation: Example of plane strain compressed Cu–Ag and Cu–Nb metal matrix composites
CPFEM shear band hetero Acta 2013.pdf
PDF-Dokument [19.5 MB]
Atomic scale analysis of deformation-driven chemical mixing and amorphization in a Cu-Nb-Ag alloy
Raabe_Hono_Acta Materialia 57 (2009) 525[...]
PDF-Dokument [1.7 MB]
Cu-Ag-Nb
MICROSTRUCTURE AND MECHANICAL PROPERTIES OF A CAST AND WIRE-DRAWN TERNARY Cu-Ag-Nb IN SITU COMPOSITE
Acta mater. Vol. 46 pp. 5973 (1998) CuNb[...]
PDF-Dokument [1.3 MB]
Cu–Cr–Ag in situ composite
Processing, microstructure, and properties of ternary high-strength Cu–Cr–Ag in situ composites
Materials Science and Engineering A291 ([...]
PDF-Dokument [1.3 MB]
Amorphization in heavily strained Cu-Nb
Materials_letters_Amorph_1995.pdf
PDF-Dokument [4.1 MB]
Cu–Cr–Ag in situ composite
Experimental study on the thermal stability of Cr filaments in a Cu–Cr–Ag in situ composite
Cu-Cr-Scripta Materialia 51 (2004) 915.p[...]
PDF-Dokument [446.6 KB]
Cu-Ag-Nb IN SITU COMPOSITE
EXPERIMENTAL INVESTIGATION AND MODELING OF THE INFLUENCE OF MICROSTRUCTURE ON THE RESISTIVE CONDUCTIVITY OF A Cu-Ag-Nb IN SITU COMPOSITE
Acta mater. Vol. 47 pp. 1627 (1999) cond[...]
PDF-Dokument [378.0 KB]
Cu-Ag-Nb WIRES
EXPERIMENTAL INVESTIGATION AND GINZBURG LANDAU MODELING OF THE MICROSTRUCTURE DEPENDENCE OF SUPERCONDUCTIVITY IN Cu-Ag-Nb WIRES
Acta mater. Vol. 47 pp. 769 (1999) CuNbA[...]
PDF-Dokument [790.1 KB]
Overview Z Mkde part 01.pdf
PDF-Dokument [2.0 MB]
Overview Z Mkde part 02.pdf
PDF-Dokument [2.1 MB]
phys-stat-raabe.pdf
PDF-Dokument [859.9 KB]

 

Acta Mat. 2011, 59, p. 364