@article { author = {Shaban Ghazani, M.}, title = {Plastic Deformation Characteristics of Continuous Confined Strip Shearing Process Considering the Deformation Homogeneity and Damage Accumulation}, journal = {Iranian Journal of Materials Forming}, volume = {6}, number = {1}, pages = {32-43}, year = {2019}, publisher = {Shiraz University}, issn = {2383-0042}, eissn = {2383-0042}, doi = {10.22099/ijmf.2019.29949.1103}, abstract = {In the present investigation, two dimensional elastoplastic finite element analysis was conducted to assess the deformation characteristics of Al 1100 alloy during continuous confined strip shearing (C2S2) process. The results of simulations showed that the plastic strain distribution across the deformed sample is non-uniform irrespective of the amount of friction and C2S2 die angle. The most uniform distribution of equivalent strain is achieved when the friction coefficient and die angle are equal to 0.3 and 90˚ respectively.  It was also observed that the maximum damage factor is located in the inner regions of the cross section of the plate similar to the conventional ECAP processing of soft materials with higher strain hardenability. According to a set of simulations, executed at different frictions and die angles, it was demonstrated that the safest condition is achieved during deformation with a friction coefficient of 0.3 and die angles of 90˚ and 110˚. Besides, the analysis of the equivalent strain rate pattern showed that the width of the deformation zone decreases by increasing the friction coefficient and decreasing the C2S2 die angle.         }, keywords = {Finite Element Analysis,C2S2 process,Strain homogeneity,Damage accumulation}, url = {https://ijmf.shirazu.ac.ir/article_5196.html}, eprint = {https://ijmf.shirazu.ac.ir/article_5196_d9f734447cf41f884dc6e195211a2da3.pdf} }