ShuZhang,JianqiuZhou,LuWang,Hongxi Liu,Shuhong Dong, Cracknucleationdue to dislocation pile-ups at twin boundary-grainboundaryintersections,Materials Science and Engineering: A, ,632(2015), 78-81.(SCI) ShuZhang,JianqiuZhou,LuWang,YingWang,The effect of the angle between loading axis and twin boundaryon the mechanical behaviors of nanotwinned materials, Materials& Design, 45(2013), 292-299.(SCI) ShuZhang,JianqiuZhou,LuWang,YingWang,Shuhong Dong,Effect of twin boundaries on nanovoid growth based ondislocation emission, MaterialsScience and Engineering: A,582(2013),29-35.(SCI) ShuZhang,JianqiuZhou,YingWang,LuWang,ShuhongDong,Simulation on the deformation behaviors of nanotwinned Cuconsidering the angle effect between loading axis and twinboundary, Computational Materials Science,77(2013),322-329.(SCI) ShuZhang,YingWang,HuaJiang,JianqiuZhou,Constitutive model for plastic deformation of nanocrystallinematerials with shear band, Meccanica, 48(2013), 175-185.(SCI) JianqiuZhou,ShuZhang,YingWang,Constitutive modeling of nanocrystalline materials with shearband, Advanced Materials Research, 311-313(2011), 512-515.(EI) LuWang,Jianqiu Zhou, ShuZhang,Hongxi Liu,ShuhongDong. Effect of dislocation-GB interactions on the crackblunting in nanocrystalline materials. MaterialsScience and Engineering: A.592(2014), 128-135. (SCI) LuWang,Jianqiu Zhou, ShuZhang,Shuhong Dong. Effects of accommodated grain boundary sliding ontriple junction nanovoid nucleation in nanocrystallinematerials. Mechanics of Materials. 71(2014), 10-20. (SCI) LuWang,Jianqiu Zhou, ShuZhang,Yingguang Liu, Hongxi Liu,YingWang, ShuhongDong. An energy analysis of nanovoid nucleation innanocrystalline materials with grain boundary slidingaccommodations. Journal of Materials Research. 29(2014),277-287. (SCI) LuWang,Jianqiu Zhou, ShuZhang,Grain size and grain boundary effects on hydrogen-inducednanovoid nucleationin polycrystallineNi. Materials Research Innovation. 18(2014), 593-596. (SCI) ShujuanHu,JianqiuZhou,ShuZhang,LuWang,ShuhongDong,YingWang,HongxiLiu,Special fracture behavior of nanocrystalline metals driven byhydrogen, Materials Science and Engineering: A 577(2013),105-113.(SCI) YingWang, JianqiuZhou,ShuZhang, LuWang, Mechanicalanalysis of the crystallineamorphouslaminated composite based on a two-phase model, Materials &Design, 51(2013), 88-94.(SCI) DapengZhang,JianqiuZhou,ShuZhang,LuWang,ShuhongDong,Theoretical analyses and numerical simulations on the mechanicalstrength of multilayers subjected to ring-on-ring tests,Materials & Design, 51(2013), 1-11.(SCI) YingWang, JianqiuZhou,ShuZhang,Construction of real digital microstructures of nanocrystallinematerials considering the coupled grain size and grainorientation distributions, Materials Research Innovations,17(2013), s115-s118. (SCI) LianjunHuang,JianqiuZhou,ShuZhang,YingWang,YingguangLiu,Effects of interface and microstructure on the mechanicalbehaviors of crystalline Cu-amorphous Cu/Zr nanolaminates,Materials & Design, 36(2012), 6-12.(SCI)
|
