In this work, trace amount of scandium element (Sc, 0.2 wt. %) was added to investigate microstructure and thermal stability evolution behavior of Sc-containing A356.2 alloy by using cyclic thermal exposure method. OM, SEM, TEM and image analysis software were applied to evaluate microstructure evolution. The results showed that both secondary dendrite arm spacing (SDAS) and average area of eutectic silicon increased with exposure temperature and exposure time increasing. In addition, thermal stabilities of ultimate tensile strength (UTS), yield strength (YS), elongation (El) and micro-hardness were sensitive to cyclic thermal exposure temperatures. E.g., under 200 degrees C exposure temperature, more than 6 cycles were needed for the mechanical properties getting stable, and with exposure temperature of 250 degrees C about 4 cycles were needed. While, for exposure temperatures of 300 degrees C and 350 degrees C, only 2 cycles were needed. Precipitation mechanisms of Nano Si (syn) phase and Al3Sc phase inside of grains were discussed, and comprehensive effect of Al3Sc, Nano Si (syn) phase, SDAS and eutectic silicon was responsible for the thermal stability of the alloy under cyclic thermal exposure conditions.

• 出版日期2018-4-18
• 单位天津大学; 河北工业大学