Add to ORKGThe grain size dependence of the yield stress in hot rolled 99.87 pct magnesium sheets and rods was measured in the temperature range 77 K to 420 K. Hot rolling produced strong basal textures and, for a given grain size, the hot rolled material has a higher strength than extruded material. The yield strength-grain size relation in the above temperature range follows the Hall-Petch equation, and the temperature dependencies of the Hall-Petch constants σ0 and k are in support of the theory of Armstrong for hcp metals that the intercept σ0 is related to the critical resolved shear stress (CRSS) for basal slip (easy slip) and the slope k is related to the CRSS for prismatic slip (difficult slip) occurring near the grain boundaries. In the hot r...
The low ductility of magnesium at room temperature is usually attributed to an insufficient number o...
Highly-textured, rolled AZ31 sheet material shows a significant drop in the plastic anisotropy (r-v...
In order to investigate the effect of texture and grain size on mechanical properties of AZ80 magnes...
The grain size dependence of the yield stress in hot rolled 99.87 pct magnesium sheets and rods was ...
Variations in the grain size and basal texture in magnesium hot-rolled in the temperature range 570–...
Attempts to expand manufacturing capabilities of magnesium-based sheet materials are described. The ...
The grain size dependencies of the yield and fracture stresses in hot rolled Mg-12.7 at % Cd alloy h...
Rolled sheets of AZ31 Mg alloys were subjected to tensile testing at temperatures ranging from room ...
Grain size strengthening, referred to as the Hall-Petch effect, is a common strategy to improve the ...
The present research work has been concentrated on the clarification of selected problems of deforma...
A hot rolled magnesium alloy sheet embedded in a steel block was rolled together with 3% thickness r...
A series of AZ31B magnesium alloy thin sheets were prepared by on-line heating rolling processing at...
Rolling of magnesium sheets is challenging at temperatures below 200 degrees C due to the strain loc...
Grain refinement is a common strategy to improve the yield strength of magnesium (Mg) alloys quantif...
Due to the deformation mechanisms and the typical basal texture rolled magnesium sheets show a signi...
The low ductility of magnesium at room temperature is usually attributed to an insufficient number o...
Highly-textured, rolled AZ31 sheet material shows a significant drop in the plastic anisotropy (r-v...
In order to investigate the effect of texture and grain size on mechanical properties of AZ80 magnes...
The grain size dependence of the yield stress in hot rolled 99.87 pct magnesium sheets and rods was ...
Variations in the grain size and basal texture in magnesium hot-rolled in the temperature range 570–...
Attempts to expand manufacturing capabilities of magnesium-based sheet materials are described. The ...
The grain size dependencies of the yield and fracture stresses in hot rolled Mg-12.7 at % Cd alloy h...
Rolled sheets of AZ31 Mg alloys were subjected to tensile testing at temperatures ranging from room ...
Grain size strengthening, referred to as the Hall-Petch effect, is a common strategy to improve the ...
The present research work has been concentrated on the clarification of selected problems of deforma...
A hot rolled magnesium alloy sheet embedded in a steel block was rolled together with 3% thickness r...
A series of AZ31B magnesium alloy thin sheets were prepared by on-line heating rolling processing at...
Rolling of magnesium sheets is challenging at temperatures below 200 degrees C due to the strain loc...
Grain refinement is a common strategy to improve the yield strength of magnesium (Mg) alloys quantif...
Due to the deformation mechanisms and the typical basal texture rolled magnesium sheets show a signi...
The low ductility of magnesium at room temperature is usually attributed to an insufficient number o...
Highly-textured, rolled AZ31 sheet material shows a significant drop in the plastic anisotropy (r-v...
In order to investigate the effect of texture and grain size on mechanical properties of AZ80 magnes...