A numerical investigation on the simple polycrystals containing threesymmetrical tilt grain boundaries(GBs)is carried out within the framework of crystalplasticity which precisely considers the finite deformation and finite lattice rotation aswell as elastic anisotropy.The calculated results show that the slip geometry and theredistribution of stresses arising from the anisotropy and boundary constraint play animportant role in the plastic deformation in the simple polycrystals.The stress levelalong GB is sensitive to the load level and misorientation,and the stresses along GB aredistributed nonuniformly.The GB may exhibit a softening or strengthening feature,which depends on the misorientation angle.The localized deformation bands usuallydevelop accompanying the GB plastic deformation,the impingement of the localizedband on the GB may result in another localized deformation band.The yield stresseswith different misorientation angles are favorably compared with the experimentalresults. A numerical investigation on the simple polycrystals containing threesymmetrical tilt grain boundaries (GBs) is carried out within the framework of crystalplasticity which precisely considers the finite deformation and finite lattice rotation aswell as elastic anisotropy. The calculated results show that the slip geometry and theredistribution arising from the anisotropy and boundary constraint play animportant role in the plastic deformation in the simple polycrystals. The stress levelalong GB is sensitive to the load level and misorientation, and the stresses along GB are non-uniformly distributed. GB can exhibit a softening or strengthening feature, which depends on the misorientation angle.The localized deformation bands usuallydevelop accompanying the GB plastic deformation, the impingement of the localizedband on the GB may result in another localized distortion band. The yield stresseswith different misorientation angles are favorably compared with the experimental results.