先进材料疑固实验室 Laboratory of Advanced Materials Solidification 1896 1920 1987 2006 Solidification of multi phase alloys(2) Dr.Mingxu Xia anced Mate 国 上浒充通大学 SHANGHAI JIAO TONG UNIVERSITY
1896 1920 1987 2006 Solidification of multi phase alloys (2) Dr. Mingxu Xia
先进材料疑固实验室 References Laboratory of Advanced Materials Solidification M.C.Flemings,凝固过程 W.Kuz,凝固原理 介万奇,凝固技术 JA Dantzig,M.Rappaz,Solidification tory of vanced Materials Solid 上浒充通大学 SHANGHAI JIAO TONG UNIVERSITY
References M.C.Flemings, 凝固过程 W.Kurz,凝固原理 介万奇,凝固技术 JA Dantzig, M. Rappaz, Solidification
先进材料疑固实验室 OUTLINE Laboratory of Advanced Materials Solidification Solidification of Eutectics Solidification of Peritectics General considerations of pertitectics Nucleation of peritectics Solidification of peritectics Microstructure control through solidification method Solidification Defects The other defects vanced MaterialsS 上浒充通大学 SHANGHAI JIAO TONG UNIVERSITY
OUTLINE Solidification of Eutectics Solidification of Peritectics • General considerations of pertitectics • Nucleation of peritectics • Solidification of peritectics Microstructure control through solidification method Solidification Defects The other defects
先进材料疑固实验室 General considerations Laboratory of Advanced Materials Solidification Many important industrial alloys exhibit a peritectic transforamtion during solidfiication.The most important systems are steel(Fe-C), Bronze(Cu-Sn)and brass(Cu-Zn).Peritectic invariants are also found in Al-Ti,Al-Ni or high-Tc YBaCuO superconductors. 0+l→B Cper Cper Cper a liquid T品(C) a+l aY 6+ C C B liquid (a) (b) (c) 上游文通大学 SHANGHAI JIAO TONG UNIVERSITY
General considerations Many important industrial alloys exhibit a peritectic transforamtion during solidfiication. The most important systems are steel (Fe-C), Bronze (Cu-Sn) and brass (Cu-Zn). Peritectic invariants are also found in Al-Ti, Al-Ni or high-Tc YBaCuO superconductors. α+l→β
先进材料疑固实验室 Nucleation Laboratory of Advanced Materials Solidification a phase nucleation temperature:T=(Ti(C)-4T) B phase nucleation temperature:=(T(C)-4T, Where,T(Co)T(C)liquidus temperature,4T undercooling T T △T% me Effective liquidus line △T 上浒充通大学 SHANGHAI JIAO TONG UNIVERSITY
Nucleation α phase nucleation temperature: β phase nucleation temperature: Where, liquidus temperature, undercooling
先进材料疑固实验室 Nucleation Laboratory of Advanced Materials Solidification Only when T>,we can conclude a phase will nucleate before βphase. ⊕ In general 4T+4,and thus the a-B transition composition C is shifted with respect to Cper,it is given by C-Cpor ATS -ATE T T B mg -m △TR ⊕ m mf are the liquidus slope of a and B D1 Effective liquidus line △Tn 上浒充通大学 SHANGHAI JIAO TONG UNIVERSITY
Nucleation Only when > , we can conclude α phase will nucleate before β phase. In general , and thus the α→β transition composition Cn α→β is shifted with respect to Cl per, it is given by are the liquidus slope of α and β
先进材料疑固实验室 nucleation Laboratory of Advanced Materials Solidification Consider now a hyperperitectic alloy oc composition close to the peritectic composition Cper,we assume the a/l interface to be at equilibrium,i.e.,that the curvature and kinetic contributions are negligible.Therefore,the undercooling for the nucleation of B for T<Tper is given by 4=(Ga(G)-Ta(G)=(m-m)(G-C) T(C) Since the a phase is already present, the a/liquid interface is the most △ probable site for nucleation of B.There T) is usually a coherency relationship between the phases. 上浒充通大学 SHANGHAI JIAO TONG UNIVERSITY
nucleation Consider now a hyperperitectic alloy oc composition close to the peritectic composition Cper, we assume the α/l interface to be at equilibrium, i.e., that the curvature and kinetic contributions are negligible. Therefore, the undercooling for the nucleation of β for T<Tper is given by Since the α phase is already present, the α/liquid interface is the most probable site for nucleation of β. There is usually a coherency relationship between the phases. Cper β
先进材料疑固实验室 Solidification of peritectics Laboratory of Advanced Materials Solidification Normal growth speed: A quenched peritectic microstructure observed in Sn- 1000 900 bronze,with the B-phase 800 completely surrounding the 700 primary a-phase. 600 10 20 30 Cs [wt6] (a)Cu-Sn phase dingram (b)Cu-Sn microstructure A micrograph of Fe-50wt%Au 1400 alloy with the peritectic phase 1200 has the same crystal structure as the primary phase.The 1000 primary y-phase solidifies first 800 and thin layer y'-phase forms 204060C. 10m around y. (e)Fe-Au phase diagram (d)Fe-Au mierostructure Fig.9.27 Examples of peritectie microstructures and their associated phase dia. grams:(a)The Cu-Sn phase diagram and (b)mierostructure observed in a quenched Cu-20wt%Sn specimen [19).(c)The Fe-Au phase diagram and (d) mierostructure in a quenched Fe-50wt Au specimen.(Courtesy,D.Favez.) 上游文通大学 SHANGHAI JIAO TONG UNIVERSITY
