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■■■■■■■■■■■■■■■■■■■ 川崎製鉄技報 KAWASAKI STEEL GIHO Vol.8 (1976) No.4 ■■■■■■■■■■■■■■■■■■■ |
| フェライト系ステンレス鋼の耐酸化性に及ぼすC,Cr,Si,Ti,Al含有量の影響 Effects of C, Cr, Si, Ti and Al Contents on Oxidation Resistance of Ferritic Stainless Steels 川崎 龍夫(Tatsuo Kawasaki) 佐藤 信二(Shinji Sato) 小野 寛(Yutaka Ono) 大橋 延夫(Nobuo Ohashi) |
| 要旨 : 自動車排気浄化装置の触媒コンバーターなど900℃前後の温度でくり返し加熱をうける用途に適するフェライト系ステンレス鋼を得る目的で,実用鋼の耐酸化性を調べるとともにこれらにおける主要成分(C,Cr,Si,Ti,Al)の影響を調べた。この温度域で耐酸化性に優れ,しかも成形性や溶接性にも優れている市販材料として極低C,Ti添加17%Cr鋼(RIVER LITE 430LT)が挙げられる。またAISI type 409を極低Cとし,かつSiを1.5%にまで高めたものが本用途,とくに耐酸化性,成形性において最適であることを見出し,新鋼種LIVER LITE 409SRを開発した。 |
| Synopsis : Oxidation resistance of ferritic stainless steels for use in automobile exhaust gas clean-up systems has been studied using the cyclic heating in the air at 900℃-950℃. Effects of major elements, C, Cr, Si, Ti and Al on oxidation resistance have also been examined. Results are as follows: (1) Carbon is detrimental to oxidation resistance and should be reduced to a level below 100ppm. (2) Chromium increases oxidation resistance. More than 14%Cr is necessary for plain ferritic stainless steel for use at about 900℃. (3) Silicon increases oxidation resistance remarkably, but is detrimental to formability of sheets. For extra low C-11%Cr steel, Si content of 1.5-2% is suitable for use at 950℃. (4) Small addition of Ti is detrimental to oxidation resistance. Ti addition is, however, preferable to increase formability as well as weldability of sheets. (5) Small addition of Al is also detrimental to oxidation resistance. Among commercial steels, extra low C, Ti bearing 17%Cr steel (RIVER LITE 430LT) shows good oxidation resistance at temperatures below 950℃, coupled with good formability and weldability. Besides, extra low C-11%Cr-0.2%Ti steel containing 1.5-2%Si (RIVER LITE 409SR) has been developed and ascertained to have superior properties for application to catalytic converter core used at temperatures below 950℃. |
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