1. 1) F. Abe: Recent Development and Trend of Heat Resistant Steel High Temperature Making, The Piping Engineering, 52-8 (2010), 10-17. (in Japanese)

2. 3) H. Hirata, K. Ogawa: Relationship Between Deterioration of Creep Rupture Strength and Microstructure in Heat Affected Zone of Heat Resistant Ferritic Steel - Modeling of Deterioration of Creep Rupture Strength in Heat Affected Zone of Heat Resistant Ferritic Steel (Report I), Japan Welding Society, 22-1 (2004), 78-86. (in Japanese)

3. 4) H. Hirata, K. Ogawa: Effect of Chromium Content on Deterioration of Creep Rupture Strength and Microstructure in Heat Affected Zone of Heat Resistant Ferritic Steel - Modeling of Deterioration of Creep Rupture Strength in Heat Affected Zone of Heat Resistant Ferritic Steel (report II), Japan Welding Society, 22-1 (2004), 87-93. (in Japanese)

4. 5) Y. Hasegawa, T. Muraki, M. Ohgami: Identification and Formation Mechanism of a Deformation Process Determining Microstructure of Type IV Creep Damage of the Advanced High Cr Containing Ferritic Heat Resistant Steel, Iron and Steel Institute of Japan, 90-10 (2004), 31-39. (in Japanese)

5. 6) T. Watanabe, M. Yamazaki, H. Hongo, J. Kinugawa, T. Tanabe, Y. Monma: Long Term Creep-Rupture Properties and Microstructure of Weld Metal on 2.25Cr-1Mo Steel Thick Plate, Society of Materials Science, 48-2 (1999) 122-129. (in Japanese)