Effects of samarium on microstructure and mechanical properties of Mg–Y–Sm–Zr alloys during thermo-mechanical treatments
- 272 Downloads
Microstructure and mechanical properties of Mg–4Y–xSm–0.5Zr (x = 1, 4, 8) alloys during thermo-mechanical treatments were investigated in this study. Mg–4Y–4Sm–0.5Zr alloy exhibits higher tensile strength but lower elongation than Mg–4Y–1Sm–0.5Zr alloy during the thermo-mechanical treatments. Large amount of intermetallic phases still remained at grain boundaries in Mg–4Y–8Sm–0.5Zr alloy after solution. These undissolved phases can strengthen the grain boundaries at temperatures higher than 573 K. But the room temperature mechanical properties of Mg–4Y–8Sm–0.5Zr alloy during the thermo-mechanical treatments were greatly weakened for the brittleness of these undissolved intermetallic phases.
KeywordsYield Strength Ultimate Tensile Strength Samarium Extrusion Process Eutectic Phasis
This work was supported by International Cooperation Fond of Shanghai Science and Technology Committee, Shanghai/Rhone-Alpes Science and Technology cooperation fund (No. 06SR07104).
- 16.Rokhlin LL (2003) In: Magnesium alloys containing rare earth meals. Taylor and Francis Inc., LondonGoogle Scholar