Formation of Nanolaminated Structure with Enhanced Thermal Stability in Copper

Abstract: Nanolaminated structure with an average boundary spacing of 67 nm has been fabricated in copper by high-rate shear deformation at ambient temperature. The nanolaminated structure with an increased fraction of low angle grain boundaries exhibits a high microhardness of 2.1 GPa. The structure coarsening temperature is 180 K higher than that of its equiaxial nanograined counterpart. Formation of nanolaminated structure provides an alternative way to relax grain boundaries and to stabilize nanostructured metals wi… Show more

“…Generally speaking, the sample deformation layer processed by SMGT technology is significantly deeper than that of SMAT, which can meet some industrial requirements. Stable gradient nanostructures have been successfully prepared on the surface of a series of metals such as copper and nickel by this technique ( Hou et al, 2021 ).…”

Advances in surface modification of tantalum and porous tantalum for rapid osseointegration: A thematic review

“…Generally speaking, the sample deformation layer processed by SMGT technology is significantly deeper than that of SMAT, which can meet some industrial requirements. Stable gradient nanostructures have been successfully prepared on the surface of a series of metals such as copper and nickel by this technique ( Hou et al, 2021 ).…”

Advances in surface modification of tantalum and porous tantalum for rapid osseointegration: A thematic review

Role of stacking fault energy in confined layer slip in nanolaminated Cu

A review on thermal stability of nanostructured materials