Nitride Precipitation in Duplex Stainless Steel Weld Metal
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概要
- 論文の詳細を見る
Duplex stainless steel base material was welded using gas tungsten arc welding with an Ar-10%H<SUB>2</SUB> shielding gas and laboratory-made filler wires were employed to deposit duplex and fully ferritic weld metals having different nitrogen contents. Weld metal slow extension rate tensile (WM-SERT) testing was used to examine the hydrogen-induced cracking susceptibility and fractography of the weld metals. An increase in nitrogen content in fully ferritic stainless steel weld metal increased the density of precipitates and the hydrogen-induced cracking susceptibility. The facets on the quasi-cleavage fracture surfaces of broken WM-SERT test specimens were parallel to the {100} plane in ferrite. Scanning and transmission electron microscope observations revealed the crystallographic features and morphology of the precipitates. The precipitates were rod-like Cr<SUB>2</SUB>N nitrides. Many of them had <100> directions and were parallel to the cleavage {100} plane in ferrite. An orientation relationship shown between Cr<SUB>2</SUB>N precipitates and ferrite suggested that the axes of the Cr<SUB>2</SUB>N precipitates were parallel to <001> direction in ferrite and that they were more coherent along their long faces than at their tips. As a result, the tip of these Cr<SUB>2</SUB>N precipitates could act as sinks for hydrogen and may be preferential sites for initiation of hydrogen cracking; this could promote crack propagation on {001} cleavage planes in ferrite on which Cr<SUB>2</SUB>N precipitates are located. Higher densities of Cr<SUB>2</SUB>N precipitates were nucleated at solidification boundaries and at oxide inclusions in ferrite.
- 社団法人 日本鉄鋼協会の論文
- 1995-10-15
著者
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North T.
Department Of Metallurgy And Materials Science University Of Toronto
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KOKAWA H.
Department of Materials Processing, Graduate School of Engineering, Tohoku University
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TSORY E.
Nuclear Research Centre, Negev
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Tsory E.
Nuclear Research Centre Negev
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Kokawa H
Department Of Materials Processing Faculty Of Engineering Tohoku University
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Kokawa H.
Department Of Materials Processing Faculty Of Engineering Tohoku University
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North T.
Department Of Materials Science And Engineering University Of Toronto
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North T.
Department of Metallurgy and Materials Science, University of Toronto
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