Improvement in HAZ Toughness of Steel by TiN-MnS Addition
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概要
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High-strength steel of the 490-MPa class strength for offshore structures was developed by making the most of a TiN-MnS complex precipitate effective that is over a wide welding heat input range. At the same time, its HAZ toughness improvement mechanism was clarified. The TiN-MnS system provided superior HAZ toughness with a medium heat input in -60°C Charpy test and -50°C CTOD test and with a high heat input in -60°C Charpy test. This is probably attributable to the TiN compound that pins austenite grains and to the TiN-MnS complex precipitate that produces fine intragranular ferrite (IGF) and reduce the fracture facet unit after welding. IGF may be formed either by increase in driving energy for nucleation in the region where manganese is depleted by the MnS precipitation or decrease in interfacial energy with nucleation by the crystal coherency of TiN and ferrite. The presence of manganese-depleted zone is an indispensable mechanism and is complemented by the crystal coherency of TiN and ferrite.
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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Tokunaga Yoshikuni
Nagoya R&D Laboratory, Nippon Steel Corporation
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Saito Naoki
Nagoya R&D Laboratory, Nippon Steel Corporation
関連論文
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- Effect of Dislocation Density in an Unrecrystallized Part of Austenite on Growth Rate of Recrystallizing Grain
- 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.