Microstructural Morphologies and Experimental Growth Laws during Solidification of Monotectic and Hypermonotectic Al-Pb Alloys
来源期刊:JOURNAL OF MATERIALS SCIENCE TECHNOLOG2014年第4期
论文作者:Adrina P.Silva Amauri Garcia José E.Spinelli
文章页码:401 - 407
摘 要:Al—Pb alloys with monotectic and hypermonotectic compositions were directionally solidified under unsteadystate heat flow conditions.The cooling curves recorded during solidification allowed solidification thermal parameters such as the cooling rate(T),growth rate(v) and thermal gradient(G) to be experimentally determined.Different microstructural patterns have been associated with the alloy solute content,i.e.,Al—1.2and 2.1 wt%Pb.A sequence of morphologies from the bottom to the top of the Al—1.2 wt%Pb alloy casting(monotectic) can be observed:Pb-rich droplets in the aluminum-rich matrix,followed by a region of microstructural transition formed by droplets and fibers and finally by a mixture of fibers and strings of pearls.A completely fibrous structure(without transition) has been observed along the entire Al—2.1 wt%Pb alloy casting(hypermonotectic).The interphase spacing(λ) was measured along the casting length,and experimental correlations between λ and experimental solidification thermal parameters have been established.Power laws with a —2.2 exponent expressing λ as a function of the growth rate,v,were found to better represent the fibrous growth of both Al—Pb alloys.Moreover,a single experimental law expressing λ as a function of both G and v was found to describe the fibrous growth of both the monotectic and the hypermonotectic alloys experimentally examined.
Adrina P.Silva1,Amauri Garcia1,José E.Spinelli2
1. Department of Materials Engineering,University of Campinas-UNICAMP2. Department of Materials Engineering,Federal University of Sao Carlos-UFSCar
摘 要:Al—Pb alloys with monotectic and hypermonotectic compositions were directionally solidified under unsteadystate heat flow conditions.The cooling curves recorded during solidification allowed solidification thermal parameters such as the cooling rate(T),growth rate(v) and thermal gradient(G) to be experimentally determined.Different microstructural patterns have been associated with the alloy solute content,i.e.,Al—1.2and 2.1 wt%Pb.A sequence of morphologies from the bottom to the top of the Al—1.2 wt%Pb alloy casting(monotectic) can be observed:Pb-rich droplets in the aluminum-rich matrix,followed by a region of microstructural transition formed by droplets and fibers and finally by a mixture of fibers and strings of pearls.A completely fibrous structure(without transition) has been observed along the entire Al—2.1 wt%Pb alloy casting(hypermonotectic).The interphase spacing(λ) was measured along the casting length,and experimental correlations between λ and experimental solidification thermal parameters have been established.Power laws with a —2.2 exponent expressing λ as a function of the growth rate,v,were found to better represent the fibrous growth of both Al—Pb alloys.Moreover,a single experimental law expressing λ as a function of both G and v was found to describe the fibrous growth of both the monotectic and the hypermonotectic alloys experimentally examined.
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