In situ investigation on the precipitation of topologically close-packed phase in Ni-base single crystal superalloy

In situ transmission electron microscopy (TEM) investigations reveal the homogeneous nucleation of topologically close-packed (TCP) phase in Ni-base single crystal superalloy at elevated temperatures, which tends to grow toward primary γ/γ′ interface for element supply. Ru addition can decrease both...

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Veröffentlicht in:	Journal of alloys and compounds 2014-10, Vol.610, p.589-593
Hauptverfasser:	Gao, Shuang, Zhou, Yizhou, Li, Cai-Fu, Cui, Jingping, Liu, Zhi-Quan, Jin, Tao
Format:	Artikel
Sprache:	eng
Schlagworte:	Alloys Cross-disciplinary physics: materials science rheology Exact sciences and technology High-temperature alloys In situ transmission electron microscopy Materials science Nickel Nucleation Orientation relationships Phase diagrams and microstructures developed by solidification and solid-solid phase transformations Physics Precipitation Single crystals Superalloys TCP (protocol) Topologically close-packed phase
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creator	Gao, Shuang Zhou, Yizhou Li, Cai-Fu Cui, Jingping Liu, Zhi-Quan Jin, Tao
description	In situ transmission electron microscopy (TEM) investigations reveal the homogeneous nucleation of topologically close-packed (TCP) phase in Ni-base single crystal superalloy at elevated temperatures, which tends to grow toward primary γ/γ′ interface for element supply. Ru addition can decrease both the nucleation and growth rate, hence to suppress TCP precipitation effectively. Higher exposure temperature reduces the nucleation rate but increases the growth rate, finally accelerates the TCP precipitation. •In situ TEM was first applied to study the precipitation behavior of TCP phase.•The TCP phase nucleates homogeneously in γ matrix without preferential sites.•The TCP phase tends to grow toward primary γ/γ′ interface for element supply.•Ru addition can decrease both the nucleation and growth rate of TCP precipitation.•Higher temperature reduces nucleation rate but increases growth rate of TCP phase. In situ transmission electron microscopy was first applied to study the precipitation behavior of topologically close-packed (TCP) phase at elevated temperature in Ru-free and Ru-containing Ni-base single crystal superalloys. Ru addition can decrease both the nucleation and growth rate, hence to suppress TCP precipitation effectively. Higher exposure temperature reduces the nucleation rate but increases the growth rate, finally accelerates the precipitation. The TCP phases nucleate homogeneously in γ matrix without preferential sites, but tend to grow toward primary γ/γ′ interface for element supply. An orientation relationship is kept during nucleation and growth of μ phase in γ matrix, which is [110]μ // [001]γ and (001)μ // (−110)γ.
doi_str_mv	10.1016/j.jallcom.2014.05.047
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Ru addition can decrease both the nucleation and growth rate, hence to suppress TCP precipitation effectively. Higher exposure temperature reduces the nucleation rate but increases the growth rate, finally accelerates the TCP precipitation. •In situ TEM was first applied to study the precipitation behavior of TCP phase.•The TCP phase nucleates homogeneously in γ matrix without preferential sites.•The TCP phase tends to grow toward primary γ/γ′ interface for element supply.•Ru addition can decrease both the nucleation and growth rate of TCP precipitation.•Higher temperature reduces nucleation rate but increases growth rate of TCP phase. In situ transmission electron microscopy was first applied to study the precipitation behavior of topologically close-packed (TCP) phase at elevated temperature in Ru-free and Ru-containing Ni-base single crystal superalloys. Ru addition can decrease both the nucleation and growth rate, hence to suppress TCP precipitation effectively. 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Ru addition can decrease both the nucleation and growth rate, hence to suppress TCP precipitation effectively. Higher exposure temperature reduces the nucleation rate but increases the growth rate, finally accelerates the TCP precipitation. •In situ TEM was first applied to study the precipitation behavior of TCP phase.•The TCP phase nucleates homogeneously in γ matrix without preferential sites.•The TCP phase tends to grow toward primary γ/γ′ interface for element supply.•Ru addition can decrease both the nucleation and growth rate of TCP precipitation.•Higher temperature reduces nucleation rate but increases growth rate of TCP phase. In situ transmission electron microscopy was first applied to study the precipitation behavior of topologically close-packed (TCP) phase at elevated temperature in Ru-free and Ru-containing Ni-base single crystal superalloys. Ru addition can decrease both the nucleation and growth rate, hence to suppress TCP precipitation effectively. Higher exposure temperature reduces the nucleation rate but increases the growth rate, finally accelerates the precipitation. The TCP phases nucleate homogeneously in γ matrix without preferential sites, but tend to grow toward primary γ/γ′ interface for element supply. 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subjects	Alloys Cross-disciplinary physics: materials science rheology Exact sciences and technology High-temperature alloys In situ transmission electron microscopy Materials science Nickel Nucleation Orientation relationships Phase diagrams and microstructures developed by solidification and solid-solid phase transformations Physics Precipitation Single crystals Superalloys TCP (protocol) Topologically close-packed phase
title	In situ investigation on the precipitation of topologically close-packed phase in Ni-base single crystal superalloy
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