Add to ORKGThe influence of stress- and strain-controlled loading on microstructure and cyclic plastic behaviour of ultrafine-grained copper prepared by equal channel angular pressing was examined. The stability of microstructure is a characteristic feature for stress-controlled test whereas grain coarsening and development of bimodal structure was observed after plastic strain-controlled tests. An attempt to explain the observed behaviour was made
Studies on the cyclic response and the substructure evolution of copper polycrystals have been carri...
Severe plastic deformation (SPD) can fabricate high-strength materials by forming an ultrafine grain...
The Equal Channel Angular Pressing is a hardening treatment with which ductile metals can be proces...
The influence of stress- and strain-controlled loading on microstructure and cyclic plastic behaviou...
AbstractStability of microstructure of ultrafine-grained materials under cyclic loading is a crucial...
AbstractThe cyclic deformation behavior of ultra fine grained copper after 7 cycles of accumulative ...
The cyclic deformation behavior of ultra fine grained copper after 7 cycles of accumulative roll bon...
This work deals with fatigue properties and stability of microstructure of ultrafine-grained (UFG) c...
The present paper deals with a study on formation of specific substructural features in OFHC copper ...
In this work the microstructural features of pure copper were studied using two methods of severe pl...
Abstract. Equal channel angular pressing is one of severe plastic deformation methods often used for...
The improvement in mechanical strength offered by ultra fine- (UF) and nanocrystalline (NC) sized gr...
In this paper, cyclic flaring and sinking (CFS) as a new severe plastic deformation (SPD) method was...
The cyclic mechanical properties and microstructural stability of severe plastically deformed copper...
The composite microstructure found in ARBed materials has yielded cyclic softening and cyclic creep ...
Studies on the cyclic response and the substructure evolution of copper polycrystals have been carri...
Severe plastic deformation (SPD) can fabricate high-strength materials by forming an ultrafine grain...
The Equal Channel Angular Pressing is a hardening treatment with which ductile metals can be proces...
The influence of stress- and strain-controlled loading on microstructure and cyclic plastic behaviou...
AbstractStability of microstructure of ultrafine-grained materials under cyclic loading is a crucial...
AbstractThe cyclic deformation behavior of ultra fine grained copper after 7 cycles of accumulative ...
The cyclic deformation behavior of ultra fine grained copper after 7 cycles of accumulative roll bon...
This work deals with fatigue properties and stability of microstructure of ultrafine-grained (UFG) c...
The present paper deals with a study on formation of specific substructural features in OFHC copper ...
In this work the microstructural features of pure copper were studied using two methods of severe pl...
Abstract. Equal channel angular pressing is one of severe plastic deformation methods often used for...
The improvement in mechanical strength offered by ultra fine- (UF) and nanocrystalline (NC) sized gr...
In this paper, cyclic flaring and sinking (CFS) as a new severe plastic deformation (SPD) method was...
The cyclic mechanical properties and microstructural stability of severe plastically deformed copper...
The composite microstructure found in ARBed materials has yielded cyclic softening and cyclic creep ...
Studies on the cyclic response and the substructure evolution of copper polycrystals have been carri...
Severe plastic deformation (SPD) can fabricate high-strength materials by forming an ultrafine grain...
The Equal Channel Angular Pressing is a hardening treatment with which ductile metals can be proces...