Abstract:Combining finite element simulation with experiments, the metal flow behavior in cold flat rolling of copper cladding aluminum(CCA) composite rod was investigated. The results show that sidepiece deformation spreading is dominant in the first flat rolling pass. However, in the later passes, the influence of slip spreading enhances while the influence of sidepiece deformation spreading reduces. When the rolling reduction ratio is in the range of 13.3%−26.7%, the influence of friction factor on lateral spreading rate is small, but when the ratio is larger than 36.7%, the influence increases. The maximum pressure lies at the entry of rod rolling. There is an “X” like equivalent strain zone in the section. Reasonable agreement of the FEM analysis and the experimental results is obtained. CCA flat bar that has clean surface quality and uniform thickness of copper cladding layer, without crack and layer at the composite interface, can be prepared by property rolling process.

Key words: copper cladding aluminum composite rod; finite element analysis; flat rolling; spreading