Furnace cooling is a slow cooling process. It is of importance to study structural evolution and its effects on the properties of alloys during the furnace cooling. Decomposition of aluminium rich α phase in a furnac...Furnace cooling is a slow cooling process. It is of importance to study structural evolution and its effects on the properties of alloys during the furnace cooling. Decomposition of aluminium rich α phase in a furnace cooled eutectoid Zn-Al based alloy was studied by transmission electron microscopy. Two kinds of precipitates in the α phase were detected in the FCZA22 alloy during ageing at 170℃. One was the hcp transitional α" m phase which aooears as directional rods and the round precipitates. The other was the fcc α'm phase. 〈101〉. The orientation relationship between the a phase and transitional phase α'm was determined as (022)α'm (fcc)//(022^-)α(fcc), [1^-11]α'm, (fcc)//[2^-33]α(fcc). The non-equilibrium phase decomposition of the α phase is discussed in correlation with the equilibrium phase relationships.展开更多
文摘Furnace cooling is a slow cooling process. It is of importance to study structural evolution and its effects on the properties of alloys during the furnace cooling. Decomposition of aluminium rich α phase in a furnace cooled eutectoid Zn-Al based alloy was studied by transmission electron microscopy. Two kinds of precipitates in the α phase were detected in the FCZA22 alloy during ageing at 170℃. One was the hcp transitional α" m phase which aooears as directional rods and the round precipitates. The other was the fcc α'm phase. 〈101〉. The orientation relationship between the a phase and transitional phase α'm was determined as (022)α'm (fcc)//(022^-)α(fcc), [1^-11]α'm, (fcc)//[2^-33]α(fcc). The non-equilibrium phase decomposition of the α phase is discussed in correlation with the equilibrium phase relationships.
