Abstract
Fabricating a dissimilar-metal block with micro/nano-multilayered structures is usually used by engineers and scientists because of their excellent mechanical properties. In the current work, multilayered copper/brass blocks were effectively fabricated by a synthetical DWFR technique, which includes the processes of diffusion welding, forging and rolling. Diffusion welding was used as the first operation to metallurgically bond the copper and brass sheets, with a Zn diffusion transition layer (thickness of ~100 μm), which can guarantee the bonding strength of copper/brass interfaces during the subsequent forging and rolling processes. After diffusion welding, the original copper/brass blocks were required to be forged, with its total thickness reduced to ~10 mm. This can further restrain the delamination of copper and brass layers during the final rolling process. Rolling was utilized as the ideal operation that can precisely tune the thickness of copper/brass laminate. This novel DWFR technique can easily tune the multilayered copper/brass blocks with controllable layer thickness (from ~250 to ~800 nm). The copper/brass interfaces were well-bonded, and the utilization efficiency of raw materials was very high (>95%).
Highlights
Multilayered dissimilar-metal blocks have always attracted attention due to their superior mechanical properties, such as high strength, good ductility and excellent impact toughness [1,2,3,4,5]
As investigated in many previous studies, the multilayered dissimilar-metal blocks can be prepared using the techniques of physical vapour deposition (PVD) [6,7], high pressure torsion (HPT) [8], accumulative rolling bonding (ARB) [9,10] and diffusion welding + rolling (DWR) [2,4,11], etc
It was difficult for HPT technique to fabricate materials large enough for industrial applications because of the small size of raw materials required for HPT
Summary
Jiansheng Li 1,2,3,4,† , Zhongchen Zhou 5,† , Tong Liu 1,3, * , Yu Zhao 1,3 , Yan Lu 4 , Ming Chen 1,3 , Xiaozhen Wang 1 , Gang Wang 1,3 and Qingzhong Mao 5, *. Anhui Key Laboratory of High-Performance Non-Ferrous Metal Materials, Anhui Polytechnic University, Wuhu 241000, China.
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