1. 1) Architectural Institute of Japan: Recommendations for Design and Construction of Concrete Filled Steel Tubular Structures, 2008.10 (in Japanese)　日本建築学会：コンクリート充填鋼管構造設計施工指針, 2008.10

2. 2) Suzui, Y. Niwa, H. Fuchita, Y. Tokinoya, H. Yamanaka, M. and Endo, F.: Ultra High Strength Concrete-Filled Steel Tube Column, Report of Obayashi Corporation Technical Institute, No.74, pp.1-10, 2010 (in Japanese)　鈴井康正, 丹羽博則, 渕田安浩, 時野谷浩良, 山中昌之, 遠藤文明：超高強度コンクリート充填鋼管(CFT)柱, 大林組技術研究所報, No.74, pp.1-10, 2010

3. 3) Kubota, J., Takaine, Y., Sawamoto, Y., and Kato, T.: Evaluation of Structural Performance of Concrete Filled Square Steel Tubular Columns Using High-Strength Materials, Journal of Structural and Construction Engineering (Transactions of AIJ), Vol.86, No.783, pp.827-837, 2021.5 (in Japanese)　久保田淳, 高稻宜和, 澤本佳和, 加藤敬史：高強度材料を用いたコンクリート充填角形鋼管柱の構造性能評価, 日本建築学会構造系論文集, 第 86巻, 第 783 号, pp.827-837, 2021.5 (DOI: https://doi.org/10.3130/aijs.86.827 )

4. 4) Kubota, J., Takaine, Y., Sawamoto, Y., and Kato, T.: Structural Performance of Concrete-Filled Square Steel Tubular Columns with Reinforced Hinge Region, Journal of Structural and Construction Engineering (Transactions of AIJ), Vol.87, No. 793, pp.328-339, 2022.3 (in Japanese)　久保田淳, 高稻宜和, 澤本佳和, 加藤敬史：材端部を補強したコンクリート充填角形鋼管柱の構造性能, 日本建築学会構造系論文集, 第 87 巻, 第793 号, pp.328-339, 2022.3 (DOI: https://doi.org/10.3130/aijs.87.328 )

5. 5) Narihara, H. Yasuda, S. Sato, E. Usami, T. Suzui, Y. and Hasegawa, T.: Study on Safety Assessment Methods for Super-high-rise Steel Buildings against Long-period Earthquake Ground Motions -Part 27 Multi-cycle Loading Test of CFT-Column (Outline of Test: Column of SN490B Steel and Fc60 Concrete), Summaries of Technical Papers of Annual Meeting, Architectural Institute of Japan, C-1, StructureⅢ, pp.1215-1216, 2014 (in Japanese)　成原弘之, 安田聡, 佐藤英佑, 宇佐美徹, 鈴井康正, 長谷川隆：長周期地震動に対する鉄骨造超高層建物の安全性検証方法の検討 その 27 CFT柱部材の多数回繰返し載荷実験(実験概要：490N 級鋼材, Fc60 コンクリート試験体), 日本建築学会大会学術講演梗概, C-1, 構造Ⅲ, pp.1251-1252, 2014