Development of 590-MPa Class High Tensile Strength Steel with Superior HAZ Toughness by Copper Precipitation Hardening.
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概要
- 論文の詳細を見る
Through the study of a chemical composition system capable of assuring high strength without impairing HAZ toughness, 590-MPa high tensile strength steel for offshore structure was developed, and its HAZ toughness improvement mechanism was clarified. The high-copper and ultra-low niobium steel provides superior HAZ toughness with medium heat input in -60°C Charpy test and -30°C CTOD test and with high input in -60°C Charpy test. Why HAZ toughness comparable to that of 490-MPa high tensile strength steel is obtained may be considered as follows. The precipitation of copper occurs much later than other precipitation-hardening elements like niobium and vanadium. Copper precipitated by tempering for strengthening goes into solid solution in the heating process of the HAZ. Copper precipitates little on cooling (and heating) during the subsequent welding thermal cycle. The embrittlement of HAZ by the precipitation hardening of copper thus does not take place. This allows the 590-MPa steel to be welded without preheating and cracking, just like 490-MPa steel.
- The Iron and Steel Institute of Japanの論文
著者
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Okamoto Kentaro
Steel Research Laboratories Nippon Steel Corporation
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TOKUNAGA Yoshikuni
Nagoya R & D Labs, Nippon Steel Corporation
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Tomita Yukio
Steel Research Laboratories Nippon Steel Corporation
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Saito Naoki
Nagoya R&D Laboratory, Nippon Steel Corporation
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Tsuzuki Takeshi
Nagoya Works, Nippon Steel Corporation
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Haze Toshiaki
Oita R&D Laboratory, Nippon Steel Corporation
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Haze Toshiaki
Oita R&D Laboratory, Nippon Steel Corporation
関連論文
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- Improvement of Creep Rupture Strength of High Cr Ferritic Steel by Addition of W
- Improvement of Creep Rupture Strength of 9Cr-1Mo-V-Nb-N Steel by Thermo-Mechanical Control Process
- Microstructural Evolution during Greep Test in 9Cr-2W-V-Ta Steels and 9Cr-1Mo-V-Nb Steels
- Fatigue Crack Growth in a High Tensile Strength Steel in Seawater and Several Other Environments
- Improving Electron Beam Weldability of Heavy Steel Plates for PWR-Steam Generator
- Effects of Precipitate Shape on High Temperature Strength of Modified 9Cr-1Mo Steels
- Improvement in HAZ Toughness of Steel by TiN-MnS Addition
- Development of 590-MPa Class High Tensile Strength Steel with Superior HAZ Toughness by Copper Precipitation Hardening.