通过DSC热分析技术研究了成分和升降温速率对GaInSn三元合金和GaIn二元合金的固-液相变行为的影响。结果表明,GaInSn三元合金和GaIn二元合金升温过程中的固-液转变(熔化)温度十分稳定,对成分波动不敏感;而降温过程中的液-固转变(凝固)温度则随成分的波动而显著变化。此外,讨论了Ga基合金过冷度与Ga含量和冷却速率之间的关系。 The effects of composition and heating and cooling rate on the solid-liquid phase transition behavior of GaInSn ternary alloy and GaIn binary alloy were investigated by DSC thermal analysis. The results show that the solid-liquid transformation (melting) temperature of GaInSn ternary alloy and GaIn binary alloy is very stable and insensitive to the component fluctuation. However, the liquid-solid transformation (solidification) temperature during the cooling process changes with the composition Fluctuations and significant changes. In addition, the relationship between the undercooling of Ga-based alloys and Ga content and cooling rate was discussed.