Add to ORKGThe results of some mechanical properties of four Mg-5Al-xRE-0.4Mn (x = 1 – 5) alloys are presented. The microstructure of experimental alloys consisted of an -Mg phase and an semi-divorced eutectic, Al11RE3 phase and an Al10RE2Mn7 intermetallic compound. For gravity casting in metal mould alloys, Brinell hardness, impact strength, tensile and compression properties at ambient temperature were determined. The performed mechanical tests allowed the author to determine the proportional influence of the mass fraction of rare earth elements in the alloys on their tensile strength, yield strength, compression strength and Brinell hardness. The impact strength of the alloys slightly decreases with a rise in the rare earth elements mass fraction
Mg-5Al-0.3Mn-xCe (x = 0-3, wt.%) alloys were prepared by metal mould casting method. The microstruct...
The microstructures and mechanical properties of cast Mg-Zn-Al-RE alloys with 4 wt.% RE and variable...
Magnesium alloys are the lightest structural alloys developed so far and have a great potential for ...
The results of some mechanical properties of four Mg-5Al-xRE-0.4Mn (x=1–5) alloys are presented. The...
The results of some mechanical properties of four Mg-5Al-xRE-0.4Mn (x=1–5) alloys are presented. The...
The effect of Ce-rich mischmetal (RE) contents on microstructures and mechanical properties of the A...
Experimental Mg-Al-RE type magnesium alloys for high-pressure die-casting are presented. Alloys base...
Experimental Mg-Al-RE type magnesium alloys for high-pressure die-casting are presented. Alloys base...
Magnesium alloy with 5 wt% Al, 0.35 wt% Mn and 5 wt% rare earth elements (RE) was prepared and gravi...
Magnesium alloys thanks to their high specific strength have an extensive potential of the use in a ...
Magnesium alloy with 5 wt% Al, 0.35 wt% Mn and 5 wt% rare earth elements (RE) was prepared and gravi...
Magnesium alloys thanks to their high specific strength have an extensive potential of the use in a ...
Magnesium-rare earth based alloys are increasingly being investigated due to the formation of highly...
Research into magnesium die-cast alloys from the Mg-Al-(Zn), Mg-Zn-(Al), Mg-rare earth (RE) and Mg-A...
Magnesium-rare earth based alloys are increasingly being investigated due to the formation of highly...
Mg-5Al-0.3Mn-xCe (x = 0-3, wt.%) alloys were prepared by metal mould casting method. The microstruct...
The microstructures and mechanical properties of cast Mg-Zn-Al-RE alloys with 4 wt.% RE and variable...
Magnesium alloys are the lightest structural alloys developed so far and have a great potential for ...
The results of some mechanical properties of four Mg-5Al-xRE-0.4Mn (x=1–5) alloys are presented. The...
The results of some mechanical properties of four Mg-5Al-xRE-0.4Mn (x=1–5) alloys are presented. The...
The effect of Ce-rich mischmetal (RE) contents on microstructures and mechanical properties of the A...
Experimental Mg-Al-RE type magnesium alloys for high-pressure die-casting are presented. Alloys base...
Experimental Mg-Al-RE type magnesium alloys for high-pressure die-casting are presented. Alloys base...
Magnesium alloy with 5 wt% Al, 0.35 wt% Mn and 5 wt% rare earth elements (RE) was prepared and gravi...
Magnesium alloys thanks to their high specific strength have an extensive potential of the use in a ...
Magnesium alloy with 5 wt% Al, 0.35 wt% Mn and 5 wt% rare earth elements (RE) was prepared and gravi...
Magnesium alloys thanks to their high specific strength have an extensive potential of the use in a ...
Magnesium-rare earth based alloys are increasingly being investigated due to the formation of highly...
Research into magnesium die-cast alloys from the Mg-Al-(Zn), Mg-Zn-(Al), Mg-rare earth (RE) and Mg-A...
Magnesium-rare earth based alloys are increasingly being investigated due to the formation of highly...
Mg-5Al-0.3Mn-xCe (x = 0-3, wt.%) alloys were prepared by metal mould casting method. The microstruct...
The microstructures and mechanical properties of cast Mg-Zn-Al-RE alloys with 4 wt.% RE and variable...
Magnesium alloys are the lightest structural alloys developed so far and have a great potential for ...