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■■■■■■■■■■■■■■■■■■■ 川崎製鉄技報 KAWASAKI STEEL GIHO Vol.17 (1985) No.1 ■■■■■■■■■■■■■■■■■■■ |
| 厚板制御冷却設備による極地向低温用鋼板の開発 Structural Steel Plates for Arctic Use Produced by Multipurpose Accelerated Cooling System 楠原 祐司(Yuji Kusuhara) 小林 英司(Eiji Kobayashi) 大西 史博(Fumihiro Ohnishi) 平井 征夫(Ikuo Hirai) 天野 虔一(Kenichi Amano) 垂井 稜(Ryo Tarui) |
| 要旨 : 近年,活発化しつつある氷海域のエネルギー資源開発のための船や海洋構造用鋼材として大入熱溶接に耐えうる低温用YP 36 kgf/mm2鋼(板厚32 mm)をMACS設備を用いて製造し,その母材および溶接継手部特性を調査した。母材じん性は,1/2 t部C方向のvTrsで−100℃以下,C方向のCOD試験の−60℃の限界COD値で,1.0 mm以上,C方向のESSO試験のKcaが600 kgf/mm3/2を示す温度で−60℃と脆性破壊の発生およびき裂伝播停止特性とも安全側にある。両者一層溶接や片側二層溶接継手部のじん性は,溶接各位置ともvE−60で7 kfg・m以上で,ボンド部の−60℃の限界COD値も0.3 mm以上と良好であった。また斜y型拘束割れ試験の断面割れ阻止予熱温度は,0℃未満であった。 |
| Synopsis : Arctic use of the YP 36 kgf/mm2 class structural steel plate for high heat input welding was developed by using Multipurpose Accelerated Cooling System (called "MACS") which was established in April 1983 at Mizushima Works, Kawasaki Steel Corp. The characteristics of the steel (32 mm in thickness) are summarized as follows: (1) Fracture appearance transition temperature at middle thickness in the transverse direction was lower than −100℃, the COD value(δc) at −60℃ was higher than 1.0 mm, and the corresponding temperature to a crack arrest toughness (Kcs) of 600 kgf/mm3/2 was −60℃. It can be concluded from the above that the material has sufficient properties for brittle crack initiation and crack arrest. (2) At a high heat input to the one side two pass/each side one pass welding joint. vE−60 was more than 7 kgf・m at any notch position and δc at −60℃ notched on the fusion line was 0.3 mm or more. (3) The preheating temperature for crack prevention was confirmed to be below 0℃ by the y-groove, large scale fillet restraint weld cracking test. |
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