Effect of thermal treatment on the corrosion resistance of Type 316L stainless steel exposed in supercritical water

There are still unknown aspects about the growth mechanism of oxide scales formed on candidate stainless steel fuel cladding materials during exposure in supercritical water (SCW) under the conditions relevant to the Canadian supercritical water-cooled reactor (SCWR). The tendency for intermetallic...

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Veröffentlicht in:	Journal of nuclear materials 2015-09, Vol.464, p.356-364
Hauptverfasser:	Jiao, Y., Zheng, W., Guzonas, D.A., Cook, W.G., Kish, J.R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Austenitic stainless steels Corrosion resistance Exposure Heat resistant steels Heat treatment Intermetallics Precipitates Precipitation Stainless steels
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container_title	Journal of nuclear materials
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creator	Jiao, Y. Zheng, W. Guzonas, D.A. Cook, W.G. Kish, J.R.
description	There are still unknown aspects about the growth mechanism of oxide scales formed on candidate stainless steel fuel cladding materials during exposure in supercritical water (SCW) under the conditions relevant to the Canadian supercritical water-cooled reactor (SCWR). The tendency for intermetallic precipitates to form within the grains and on grain boundaries during prolonged exposure at high temperatures represents an unknown factor to corrosion resistance, since they tend to bind alloyed Cr. The objective of this study was to better understand the extent to which intermetallic precipitates affects the mode and extent of corrosion in SCW. Type 316L stainless steel, used as a model Fe–Cr–Ni–Mo alloy, was exposed to 25MPa SCW at 550°C for 500h in a static autoclave for this purpose. Mechanically-abraded samples were tested in the mill-annealed (MA) and a thermally-treated (TT) condition. The thermal treatment was conducted at 815°C for 1000h to precipitate the carbide (M23C6), chi (χ), laves (η) and sigma (σ) phases. It was found that although relatively large intermetallic precipitates formed at the scale/alloy interface locally affected the oxide scale formation, their discontinuous formation did not affect the short-term overall apparent corrosion resistance.
doi_str_mv	10.1016/j.jnucmat.2015.04.030
format	Article
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The tendency for intermetallic precipitates to form within the grains and on grain boundaries during prolonged exposure at high temperatures represents an unknown factor to corrosion resistance, since they tend to bind alloyed Cr. The objective of this study was to better understand the extent to which intermetallic precipitates affects the mode and extent of corrosion in SCW. Type 316L stainless steel, used as a model Fe–Cr–Ni–Mo alloy, was exposed to 25MPa SCW at 550°C for 500h in a static autoclave for this purpose. Mechanically-abraded samples were tested in the mill-annealed (MA) and a thermally-treated (TT) condition. The thermal treatment was conducted at 815°C for 1000h to precipitate the carbide (M23C6), chi (χ), laves (η) and sigma (σ) phases. 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The tendency for intermetallic precipitates to form within the grains and on grain boundaries during prolonged exposure at high temperatures represents an unknown factor to corrosion resistance, since they tend to bind alloyed Cr. The objective of this study was to better understand the extent to which intermetallic precipitates affects the mode and extent of corrosion in SCW. Type 316L stainless steel, used as a model Fe–Cr–Ni–Mo alloy, was exposed to 25MPa SCW at 550°C for 500h in a static autoclave for this purpose. Mechanically-abraded samples were tested in the mill-annealed (MA) and a thermally-treated (TT) condition. The thermal treatment was conducted at 815°C for 1000h to precipitate the carbide (M23C6), chi (χ), laves (η) and sigma (σ) phases. 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The tendency for intermetallic precipitates to form within the grains and on grain boundaries during prolonged exposure at high temperatures represents an unknown factor to corrosion resistance, since they tend to bind alloyed Cr. The objective of this study was to better understand the extent to which intermetallic precipitates affects the mode and extent of corrosion in SCW. Type 316L stainless steel, used as a model Fe–Cr–Ni–Mo alloy, was exposed to 25MPa SCW at 550°C for 500h in a static autoclave for this purpose. Mechanically-abraded samples were tested in the mill-annealed (MA) and a thermally-treated (TT) condition. The thermal treatment was conducted at 815°C for 1000h to precipitate the carbide (M23C6), chi (χ), laves (η) and sigma (σ) phases. It was found that although relatively large intermetallic precipitates formed at the scale/alloy interface locally affected the oxide scale formation, their discontinuous formation did not affect the short-term overall apparent corrosion resistance.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.jnucmat.2015.04.030</doi><tpages>9</tpages></addata></record>
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subjects	Austenitic stainless steels Corrosion resistance Exposure Heat resistant steels Heat treatment Intermetallics Precipitates Precipitation Stainless steels
title	Effect of thermal treatment on the corrosion resistance of Type 316L stainless steel exposed in supercritical water
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