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著作
Publications

期刊文章
Journal publications
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  1. Ou, Y.C., Sutejo, H., Huang, J.L., and Yen, S.I. (2024). “Cyclic Behavior of Beams with Double-perimeter and Continuous-stirrup Hoops.” ACI Structural Journal. (SCI) (In Press)
  2. Ou, Y.C., Joju, J., and Lai, B.C. (2024). “Seismic behavior of eccentric new RCS joints with through columns.” Engineering Structures. 301, 117266. (SCI) (In Press)
  3. Ou, Y.C., Sutejo, H., Huang, J.L., and Yen, S.I. (2024). “Seismic performance of reinforced concrete beams with proposed lap-spliced intermediate hoops.” Journal of Structural Engineering, ASCE. 150(3), 04023239. (SCI)
  4. Ou, Y.C., and Bui, C.T. (2023). “Shear strength and crack width control of concrete beams with high-strength shear reinforcement.” Journal of Structural Engineering, ASCE. (SCI) (In Press)
  5. Ou, Y.C., Nguyen, N.V.B., and Joju, J., and Wang, J.C. (2023). “Seismic Behavior of Concentric and Eccentric New-RCS Through-beam Joints.” Journal of Building Engineering. 76, 107357. (SCI) Link
  6. Ou, Y.C., and Nguyen, N.V.B., and Lai, B.C. (2023). “Seismic Shear and Flexural Performance of New RCS Joints with W-FDP, W-FBP, and Small Hoops.” Engineering Structures. 292, 116568. (SCI) Link
  7. Ou, Y.C., and Bui, C.T., and Chen Y.M. (2023). “Crack width, deflection, and strain limits of concrete beams with unstressed seven-wire steel strands as longitudinal reinforcement.” Journal of the Chinese Institute of Engineers. 46(6), 649-660. (SCI) Link
  8. Ou, Y.C., Joju, and J., Lai, B.C., and Wang, J.C. (2023). “Development and seismic performance evaluation of New high strength reinforced concrete column and steel beam (New-RCS) joint.” Engineering Structures. 288, 116186. (SCI) Link
  9. Ou, Y.C., Prasetya, D., and Zhang, G.W, and Saputra, M.D. (2023). “Effect of Concrete Mixture on Shear Behavior of Prestressed Concrete Girders.” Engineering Structures. 282, 115804. (SCI) Link
  10. Ou, Y.C., and Li, B. (2023). “Seismic performance of five-spiral concrete columns with large-diameter longitudinal reinforcement.” ACI Structural Journal. 120(5), 37-47. (SCI) Link
  11. Ou, Y.C., and Joju, J., and Hsieh, M.Y. (2023). “Seismic behavior of reinforced concrete beam-column joints with unstressed steel strands fully or partially used for beam longitudinal reinforcement.” Journal of Building Engineering. 67, 105932. (SCI)  Link
  12. Ou, Y.C., Lau J.V.J., Li, J.Y., and Havlasek, P., and Bittnar, Z. (2022). "Cyclic behavior of reinforced concrete columns with five-spiral reinforcement." Journal of Building Engineering. 61, 105245. (SCI) Link
  13. Ou, Y.C., and Wu, J.W., and Pratiwi A.Y. (2022). “Effect of the Concrete Cover Thickness Ratio on the Post-yield Stiffness of Bridge Columns with Partially Unbonded Unstressed Steel Strands.” Advances in Bridge Engineering. 3:13. Link
  14. Ou, Y.C., and Joju, J., and Liu, Y.C. (2022). “Cyclic behavior of reinforced concrete columns with unstressed steel strands as longitudinal reinforcement.” Journal of Structural Engineering. 148(9), 04022125. (SCI) Link
  15. Ou, Y.C., and Joju, J., and Hsu, W.C. (2022). “Cyclic behavior of shear-critical concrete columns with unstressed steel strands as longitudinal reinforcement.” Engineering Structures. 264, 114465. (SCI) Link
  16. Ou, Y.C., and Nguyen, N.V.B., and Wang, W.R. (2022). “Seismic shear behavior of new high-strength reinforced concrete column and steel beam (New RCS) joints.” Engineering Structures. 265, 114497. (SCI) Link
  17. Ou, Y.C., and Bui, C.T., and Chen Y.M. (2022). “Use of unstressed seven-wire strands as longitudinal reinforcement of concrete beams.” ACI Structural Journal. 119(5), 285-297. (SCI) Link
  18. Ou, Y.C., and Wu, J.W., and Pratiwi A.Y. (2022). “Cyclic behavior of bridge columns with partially unbonded seven-wire steel strands to increase post-yield stiffness.” Engineering Structures. 258, 114112. (SCI) Link
  19. Ngo, S.H., and Ou, Y.C., and Nguyen V.D. (2022). “Shear strength model for reinforced concrete bridge columns with multi-spiral transverse reinforcement” Journal of Structural Engineering, ASCE. 148(3): 04021303. (SCI) Link
  20. Ou, Y.C., and Nguyen, and N.V.B. (2022). "Stress Limit for Shear Reinforcement of High-Strength Columns." ACI Structural Journal. 119(1), 131-141. (SCI) Link
  21. Ou, Y.C., and Li, J.Y., and Roh, H. (2021). “Shear strength of reinforced concrete columns with five-spiral reinforcement.” Engineering Structures, 233, 111929. (SCI) Link
  22. Ngo, S.H., and Ou, Y.C. (2021). “Expected maximum moment of multi-spiral columns.” Engineering Structures. 249, 113386. (SCI) Link
  23. Ou, Y.C., and Alrasyid, H., and Nguyen, N.V.B. (2021). “Minimum shear reinforcement for columns with high-strength reinforcement and concrete.” Journal of Structural Engineering, ASCE. 147(2): 04020313. (SCI) Link
  24. Wang, P.H., Chang, K.C., Yin, S.Y.L., and Wang, J.C., and Ou, Y.C. (2020). “A simplified finite element analysis method for axial compression behavior of rectangular concrete columns with interlocking multi-spiral reinforcements.” Journal of Structural Engineering, ASCE. 146(1): 04019176. (SCI) Link
  25. Ou, Y.C., Yin, S.Y.L., and Liu, Y.Q., and Wang, J.C. (2019). "Cyclic behavior of a reinforced concrete column with unstressed seven-wire steel strands as longitudinal reinforcement." ACI Special Publication. 341, 97-104. (SCI) Link
  26. Ou, Y.C., and Hoang, L., and Roh, H. (2019). " Cyclic behavior of squat reinforced concrete walls with openings typical of exterior walls of row houses in Taiwan.” Engineering Structures. 195, 231-242. (SCI) Link
  27. Chou, J.S., and Ou, Y.C., and Lin, K.Y. (2019). “Collapse mechanism and risk management of wind turbine tower in strong wind.” Journal of Wind Engineering & Industrial Aerodynamics. 193, 103962. (SCI) Link
  28. Wang, P.H., and Chang, K.C., and Ou, Y.C. (2019). “Capacity-based inelastic displacement spectra for reinforced concrete bridge columns. Earthquake Engineering and Structural Dynamics. 48(14), 1536-1555. (SCI) Link
  29. Ou, Y.C., Hashlamon, I., and Kim, W.S., and Roh, H. (2019). "Development of basic technique to improve seismic response accuracy of tributary area-based lumped-mass stick models." Earthquake Engineering and Engineering Vibration. 18(1), 113–127. (SCI) Link
  30. Ou, Y.C., and Truong, A.N. (2018). "Cyclic behavior of reinforced concrete L- and T-columns retrofitted from rectangular columns.” Engineering Structures. 177, 147-159. (SCI) Link
  31. Ou, Y.C., and Truong, A.N. (2018). "Cyclic shear and flexural behavior of L- and T-columns.” ACI Structural Journal, 115(6), 1603-1613. (SCI) Link
  32. Ou, Y.C., and Pratiwi, A.Y., and Song, J. (2018). "Pseudo-dynamic testing and inelastic displacement ratios of self-centering precast concrete segmental bridge columns." Journal of Structural Engineering, ASCE. 144(9), 04018158. (SCI) Link
  33. Chou, J.S., Ou, Y.C., and Lin, K.Y., and Wang, Z.J. (2018). "Structural failure simulation of onshore wind turbines impacted by strong winds." Engineering Structures, 162, 257-269.(SCI) Link
  34. Zhou, Y., and Ou, Y.C., and Lee, G.C. (2017). "Bond-slip responses of stainless reinforcing bars in grouted ducts.” Engineering Structures, 141, 651-665. (SCI) Link
  35. Moon, D.Y., and Ou, Y.C., and Roh. H. (2017). “Interlaminar shear capacity of thermally damaged GFRP bars under alkaline concrete environment.” Construction and Building Materials, 152, 105-114. (SCI) Link
  36. Han, Q., Zhou, Y., and Ou, Y.C., and Du, X. (2017). "Seismic behavior of reinforced concrete sacrificial exterior shear keys of highway bridges." Engineering Structures, 139, 59-70. (SCI) Link
  37. Ou, Y.C., and Canseco, H.A., and Kurniawan, D.P. (2017). "Anchorage performance of headed deformed bars in exterior beam-column joints under cyclic loading." KSCE Journal of Civil Engineering, 21(7), 2837–2849. (SCI) Link
  38. Wang, P.H., and Ou, Y.C., and Chang, K.C. (2017). "A new smooth hysteretic model for ductile flexural-dominated reinforced concrete bridge columns." Earthquake Engineering and Structural Dynamics, 46(14), 2237-2259. (SCI) Link
  39. Ou, Y.C., and Nguyen, D.N. (2016). "Modified axial-shear-flexure interaction approaches for uncorroded and corroded reinforced concrete beams." Engineering Structures, 128, 44-54. (SCI) Link
  40. Ou, Y.C., and Nguyen, D.N. (2016). "Influences of location of reinforcement corrosion on seismic performance of corroded reinforced concrete beams." Engineering Structures, 126, 210-223. (SCI) Link
  41. Kim, W.S., Laman, J.A., Jeong, Y., and Ou, Y.C., and Roh, H. (2016). "Comparative study of integral abutment bridge structural analysis methods." Canadian Journal of Civil Engineering, 43(4), 378-389. (SCI) Link
  42. Ou, Y.C., and Ngo, S.H., (2016) “Discrete shear strength of two- and seven-circular-hoop and spiral transverse reinforcement.” ACI Structural Journal, 113(2), 227-238. (SCI) Link
  43. Bu, Z.Y., Ou, Y.C., and Song, J., and Lee, G.C. (2016). “Hysteretic Modeling of unbonded post-tensioned precast segmental bridge columns with circular section based on cyclic loading test.” Journal of Bridge Engineering, ASCE, 21(6), 04016016. (SCI) Link
  44. Ou, Y.C., and Susanto, Y.T.T., and Roh, H. (2016) “Tensile behavior of naturally and artificially corroded steel bars.” Construction and Building Materials. 103, 93-104. (SCI) Link
  45. Bu, Z.Y., Ou, Y.C., Song, J., and Zhang, N., and Lee, G.C. (2016). “Cyclic loading test of unbonded and bonded posttensioned precast segmental bridge columns with circular section.” Journal of Bridge Engineering, ASCE, 21(2), 04015043. (SCI) Link
  46. Ou, Y.C., and Ngo, S.H., (2016) “Discrete computational shear strength models for five- six- and eleven-circular-hoop and spiral transverse reinforcement.” Advances in Structural Engineering, 19(1), 23-37. (SCI) Link
  47. Ou, Y.C., Alrasyid, H., and Haber, Z.B., and Lee, H.J., (2015) “Cyclic behavior of precast high-strength reinforced concrete columns.” ACI Structural Journal, 112(6), 839-850. (SCI) Link
  48. Ou, Y.C., Tran, N.M., and Chen, C.C., and Lee, H.J. (2015). "Panel zone shear behavior of through flange connections for steel beams to circular concrete-filled steel tubular columns." Journal of Structural Engineering, ASCE, 141(9), 04014216. (SCI) Link
  49. Hsiao, F.P., and Oktavianus, Y., and Ou, Y.C. (2015). “A pushover seismic analysis method for asymmetric and tall buildings.” Journal of the Chinese Institute of Engineers, 38(8), 991-1001. (SCI) Link
  50. Ou, Y.C., Ngo, S.H., Roh, H., Yin, S. Y.L., and Wang, J.C., and Wang, P.H. (2015). "Seismic performance of concrete columns with innovative seven- and eleven-spiral reinforcement."  ACI Structural Journal, 112(5), 579-592. (SCI) Link
  51. Lee, H., Ou, Y.C., and Roh, H., and Lee, J.S. (2015), "Simplified model and seismic response of integrated nuclear containment system based on frequency adaptive lumped-mass stick modeling approach." KSCE Journal of Civil Engineering, 19(6), 1757-1766. (SCI) Link
  52. Ou, Y.C., and Kurniawan, D.P. (2015) “Effect of axial compression on shear behavior of high-strength reinforced concrete columns.” ACI Structural Journal, 112(2), 209-219. (SCI) Link
  53. Ou, Y.C., and Kurniawan, D.P. (2015) “Shear behavior of reinforced concrete columns with high-strength steel and concrete.” ACI Structural Journal, 112(1), 35-45. (SCI) Link
  54. Hsiao, F.P., Oktavianus, Y., Ou, Y.C., and Luu, C.H., and Hwang, S.J. (2015). "A pushover seismic analysis and retrofitting method applied to low-rise RC school buildings." Advances in Structural Engineering, 18(3), 311-324. (SCI) Link
  55. Ou, Y.C., and Nguyen, D.N. (2014). "Plastic hinge length of corroded reinforced concrete beams." ACI Structural Journal, 111(5), 1049-1058. (SCI) Link
  56. Ou, Y.C., Ngo, S.H., Yin, Y.L., and Wang, J.C., and Wang, P.H. (2014). "Shear behavior of oblong bridge columns with innovative seven-spiral transverse reinforcement." ACI Structural Journal, 111(6), 1339-1350. (SCI) Link
  57. Ou, Y.C., and Chen, H.H. (2014). "Cyclic behavior of reinforced concrete beams with corroded transverse steel reinforcement." Journal of Structural Engineering, ASCE. 140(9), 04014050. (SCI) Link
  58. Ou, Y.C., Song, J., Wang, P.H., Leo, A., and Chang, K.C., and Lee, G.C. (2014). “Ground motion duration effects on hysteretic behavior of reinforced concrete bridge columns.” Journal of Structural Engineering, ASCE, 140(3), 04013065. (SCI) Link
  59. Roh, H., Ou, Y.C., and Kim, J., and Kim, W.S., (2014), “Effect of yielding level and post-yielding stiffness ratio of ED bars on seismic performance of PT rocking bridge piers.” Engineering Structures, 81, 454–463. (SCI) Link
  60. Ou, Y.C., and Kurniawan, D.P., and Handika, N. (2013). “Shear behavior of reinforced concrete columns with high-strength steel and concrete under low axial load.” ACI Special Publication (SP-293), 1-16, American Concrete Institute. Link
  61. Ou, Y.C., and Fan, H.D., and Nguyen, D.N. (2013). "Long-term seismic performance of reinforced concrete bridges under steel reinforcement corrosion due to chloride attack." Earthquake Engineering and Structural Dynamics, 42(14), 2113-2127. (SCI) Link
  62. Ou, Y.C., and Oktavianus, Y., and Tsai, M.S. (2013). “An emulative precast segmental concrete bridge column for seismic regions.” Earthquake Spectra, 29(4), 1441-1457. (SCI) Link
  63. Bu, Z.Y., and Ou, Y.C. (2013). "Simplified analytical pushover method for precast segmental concrete bridge columns." Advances in Structural Engineering, 16(5), 805-822. (SCI) Link
  64. Chou, J.S., Ou, Y.C., Cheng, M.Y., and Cheng, M.Y., and Lee, C.M. (2013). "Emergency shelter capacity estimation by earthquake damage analysis." Natural Hazards, 65(3), 2031-2061. (SCI) Link
  65. Wu, T.L., Ou, Y.C., Yin, Y.L., Wang, J.C., and Wang, P.H., and Ngo, H.S. (2013). “Behavior of oblong and rectangular bridge columns with conventional tie and multi-spiral transverse reinforcement under combined axial and flexural loading.” Journal of the Chinese Institute of Engineers, 36(8), 980-993. (SCI) Link
  66. Ou, Y.C., Kurniawan, R.A., and Kurniawan, D.P., and Nguyen, D.N. (2012). “Plastic hinge length of circular reinforced concrete columns.” Computers and Concrete, 10(6), 663-681. (SCI) Link
  67. Ou, Y.C., and Tsai, L.L., and Chen, H.H. (2012). “Cyclic performance of large-scale corroded reinforced concrete beams.” Earthquake Engineering and Structural Dynamics, 41(4), 593-604. (SCI) Link
  68. Ou, Y.C., Tsai, M.S., and Liu, K.Y., and Chang, K.C. (2012). “Compressive behavior of steel fiber-reinforced concrete with a high reinforcing index.” Journal of Materials in Civil Engineering, ASCE, 24(2), 207-215. (SCI) Link
  69. Ou, Y.C., Tsai, M.S., and Chang, K.C., and Lee, G.C. (2010). “Cyclic behavior of precast segmental concrete bridge columns with high performance or conventional steel reinforcing bars as energy dissipation bars.” Earthquake Engineering and Structural Dynamics, 39(11), 1181-1198. (SCI) Link
  70. Zhou, Y., Ou, Y.C., and Lee, G.C., and O'Connor, J. (2010). “Mechanical and low-cycle fatigue behavior of stainless reinforcing steel for earthquake engineering applications.” Earthquake Engineering and Engineering Vibration, 9(3), 449-457. (SCI) Link
  71. Ou, Y.C., Wang, P.H., Tsai, M.S., and Chang, K.C., and Lee, G.C. (2010). “Large-scale experimental study of precast segmental unbonded post-tensioned concrete bridge columns for seismic regions.” Journal of Structural Engineering, ASCE, 136(3), 255-264. (SCI) Link
  72. Lee, G.C., Ou, Y.C., Niu, T., and Song, J., and Liang, Z. (2010). “Characterization of a roller seismic isolation bearing with supplemental energy dissipation for highway bridges.” Journal of Structural Engineering, ASCE, 136(5), 502-510. (SCI) Link
  73. Ou, Y.C., and Song, J., and Lee, G.C. (2010). “A parametric study of seismic behavior of roller seismic isolation bearings for highway bridges.” Earthquake Engineering and Structural Dynamics, 39(5), 541-559. (SCI) Link
  74. Wang, J.C., Ou, Y.C., and Chang, K.C., and Lee, G.C. (2008). “Large-scale seismic tests of tall concrete bridge columns with precast segmental construction.” Earthquake Engineering and Structural Dynamics, 37(12), 1449-1465. (SCI) Link
  75. Ou, Y.C., Chiewanichakorn, and M., Aref, A.J., and Lee, G.C. (2007). “Seismic performance of segmental precast unbonded posttensioned concrete bridge columns.” Journal of Structural Engineering, ASCE, 133(11), 1636-1647. (SCI) Link
  76. Ou, Y.C., Chiewanichakorn, M., Ahn, I.S., Aref, A.J., Chen, S.S., and Filiatrault, A., and Lee, G.C. (2006). “Cyclic performance of precast concrete segmental bridge columns – simplified analytical and finite element studies.” Transportation Research Record, No. 1976, 66-74. (SCI) Link
  77. 歐昱辰, 張穩二, 吳振維. (2023). “高強度橫向鋼筋預力梁之剪力行為.” 結構工程. (In Press)
  78. 歐昱辰, 吳振維. (2023). “New RC應用於橋梁探討.” 中華技術. 139, 31-43.
  79. 黃世建, 黃紹愷, 翁樸文, 歐昱辰, 黃明慧. (2023). “鋼筋混凝土二元系統剪力牆之剪力強度設計.” 結構工程. 38(4). 80-105.
  80. 歐昱辰, 吳振維, Ade Yuniati Pratiwi. (2020). “無預力且部分無握裹鋼絞線橋柱之耐震行為.” 結構工程, 35(4), 104-118.
  81. 歐昱辰, 李哲諺. (2020). “五螺箍筋柱之雙曲率反覆載重試驗與離散計算剪力模型.” 結構工程, 35(3), 85-97.
  82. 周瑞生, 歐昱辰, 曾惠斌, 陳瑞鈴, 蔡綽芳, 吳昀臻, 陳育銘. (2019). “都會區私有建築物震損評估與耐震補強成本效益分析-以臺南市幸福及維冠龍樓為例.” 中國土木水利工程學刊, 31(5), 455-471. PDF
  83. 周瑞生, 歐昱辰, 曾惠斌, 陳瑞鈴, 蔡綽芳, 張人傑. (2019). “臺灣私有建築物耐震評估補強經費之財務供需規劃暨其配套措施研議.” 營建管理季刊, 111, 16-38. PDF
  84. 歐昱辰, 蔡東均. (2018). “高強度鋼筋混凝土柱之設計.” 中國土木水利工程學刊, 30(3), 223-229. PDF
  85. 歐昱辰, 蔡東均. (2018). “鋼筋混凝土柱最大可能彎矩強度.” 結構工程, 33(1), 29-67. PDF
  86. 歐昱辰, (2018). "混凝土結構設計規範預鑄混凝土構材之重要修訂內容." 混凝土科技, 12(1), 43-47. PDF
  87. 王柄雄, 張國鎮, 歐昱辰. (2018). “容量位移雙反應譜--基於損傷之鋼筋混凝土橋梁耐震設計與評估法.” 結構工程, 33(4), 91-112.
  88. 歐昱辰, (2017). "新版混凝土結構設計規範草案於特殊抗彎矩構架耐震設計之重要變更." 土木水利, 44(1), 1-6. PDF
  89. 歐昱辰, 蔡東均. (2016). “高強度鋼筋混凝土柱軸力與彎矩強度互制關係電腦程式-New RC-PM.” 結構工程, 31(4), 107-120. PDF
  90. 王柄雄, 歐昱辰, 尹衍樑, 王瑞禎, 吳振維, 陳智軒, 張國鎮. (2016). "方螺箍混凝土梁耐震行為研究." 結構工程. Link
  91. 歐昱辰, 郭陳風, 劉澄洲. (2014). “腐蝕鋼筋受拉行為.” 土木水利, 41(2), 55-61. PDF
  92. 鄭明淵, 邱永芳, 吳育偉, 歐昱辰, 邱建國, 廖國偉, 范鴻達. (2013). “創新人工智慧學習模式預測震後橋梁耐震能力與通行失敗機率之研究-以臺灣橋梁為例.” 中國土木水利工程學刊, 25(3), 193-209. PDF
  93. 杜昱石, 歐昱辰. (2012). "鋼筋混凝土梁撓曲極限狀態拉力筋應變與縱向鋼筋用量之關係." 結構工程, 27(2), 21-32. PDF
  94. 周瑞生, 歐昱辰, 鄭敏元, 鄭明淵, 陳道平, 李振銘, 葉勁宏. (2012). "臺北市地震災害潛勢分析與避難收容能量評估." 營建管理季刊, 91, 1-25. PDF
  95. 歐昱辰, 蔡木森, 王華靖, 張國鎮. (2010). "預鑄節塊混凝土橋柱的地震力折減係數." 結構工程, 25(3), 101-112. PDF
  96. 銀徽, 楊亦東, 歐昱辰. (2009). "以超啟發式演算法進行鋼筋混凝土結構最佳化設計." 營建管理季刊, 80, 96-104. PDF
  97. 張國鎮, 歐昱辰, 王柄雄, 蔡木森, Lee, G.C. (2007). "新一代橋梁建造工法-後拉式預鑄節塊橋柱." 土木水利, 34(6). 30-38. PDF
工程規範與專書
Engineering Code and Books
  1. 中國土木水利工程學會混凝土工程委員會(擔任召集人與章節主筆). (2023). 鋼筋混凝土學[土木406-112]. 科技圖書, 臺北市, 臺灣, ISBN: 9789576555718.
  2. 中國土木水利工程學會混凝土工程委員會(擔任召集人與章節主筆). (2023). 混凝土工程設計規範與解說[土木401-112], 科技圖書, 臺北市, 臺灣, ISBN: 9789576555701.
  3. 中華民國地震工程學會(計畫主持人). (2023). 新型鋼骨預鑄混凝土複合式構架接頭設計手冊, 臺北市, 臺灣.
  4. 中國土木水利工程學會混凝土工程委員會(擔任召集人與章節主筆). (2022). 鋼筋混凝土學[土木406-111]. 科技圖書, 臺北市, 臺灣, ISBN: 9789869398381.
  5. 中華民國結構工程學會(擔任章節主筆). (2022). 高強度鋼筋混凝土結構設計手冊(第二版), 科技圖書, 臺北市, 臺灣, ISBN: 9789576555688.
  6. 中國土木水利工程學會混凝土工程委員會(擔任召集人與章節主筆). (2021). 混凝土工程設計規範與解說[土木401-110], 科技圖書, 臺北市, 臺灣, ISBN: 9789576555596.
  7. National Center for Research on Earthquake Engineering (Chapter author). (2019). Design Guideline for Building of High-Strength Reinforced Concrete Structures, Taipei, Taiwan.
  8. 中國土木水利工程學會混凝土工程委員會(擔任召集人與章節主筆). (2019). 混凝土工程設計規範與解說[土木401-108], 科技圖書, 臺北市, 臺灣, ISBN: 9789576555527.
  9. 中華民國結構工程學會(擔任章節主筆). (2017). 高強度鋼筋混凝土結構設計手冊, 科技圖書, 臺北市, 臺灣, ISBN: 9789576555411.
  10. 臺灣混凝土學會(擔任副召集人與章節主筆). (2017). 預鑄混凝土工程施工規範與解說, 臺北市, 臺灣, ISBN: 9789869019927.
  11. 臺灣混凝土學會(擔任副召集人與章節主筆). (2017). 預鑄混凝土工程設計規範與解說, 臺北市, 臺灣, ISBN: 9789869019910.
  12. 美國混凝土學會(擔任編審委員). (2016). 結構混凝土建築規範與解說(ACI 318-14)中譯版, 科技圖書, 臺北市, 臺灣, ISBN: 9789868401273.
  13. Ou, Y.C., and Oktavianus, Y. (2013). Behavior of reinforced concrete members, First edition, 225 pages, Rye Field Publishing Co. ISBN: 978-957-43-0921-4. Cover
  14. 歐昱辰, 韋昀孜. (2012). 鋼筋混凝土結構設計, 第2版, 389頁, 麥田資訊股份有限公司印刷. ISBN: 957419510-7. 目錄
    Ou, Y.C., and Wei, Y.Z. (2012). Design of reinforced concrete structures. Second Edition, 389 pages, Rye Field Publishing Co. ISBN: 957419510-7. (In Chinese) TOC
  15. 歐昱辰. (2011). 鋼筋混凝土結構設計, 第1版, 麥田資訊股份有限公司印刷, 臺北市, 臺灣, ISBN: 957418166-7.
專利與新材料新工法
Patents and Approval of New Technology ,Construction Equipment and Material in Buildings
  1. 歐昱辰. (2022). “新型鋼骨混凝土構造系統.” 內政部營建署, 臺北市, 臺灣.
  2. 歐昱辰, 何明錦, 黃國倫. (2016). 應用於直立柱與開口牆段的鋼筋配置. 中華民國發明專利: 專利號碼I563149 Link
  3. 陳正誠, 歐昱辰. (2015). 填充型鋼管混凝土梁柱的接頭結構. 中華民國發明專利: 專利號碼I493092
規範編修與審查
Code Editing and Review
  1. 內政部(副召集人並領導作業小組). (2023). 建築物混凝土結構施工規範-預鑄編, 臺北市, 臺灣.
  2. 內政部(副召集人並領導作業小組). (2023). 建築物混凝土結構施工規範-預鑄編, 臺北市, 臺灣.
  3. 內政部(編審委員). (2021). 鋼骨鋼筋混凝土構造設計規範柱及接合設計之修正研擬, 臺北市, 臺灣.
  4. 交通部(複審委員). (2021). 鐵路橋梁耐震設計規範, 臺北市, 臺灣.
  5. 內政部(土水學會召集人). (2021). 新版混凝土結構設計規範(內政部通過), 臺北市, 臺灣.
  6. 內政部(召集人). (2021). 公路橋梁耐震補強評估與設計規範複審(內政部通過), 臺北市, 臺灣.
  7. 交通部(編審委員). (2021). 公路橋梁耐震補強評估與設計規範, 臺北市, 臺灣.
  8. 內政部(起草人與編審委員). (2017). 混凝土結構設計規範第九章預鑄混凝土構材修訂, 臺北市, 臺灣.
研討會文章
Conference Papers
  1. Bui, C.T., Ou, Y.C. (2023). "Stress Limits in Shear Strength Design of Concrete Beams with High-Strength Shear Reinforcement". Taiwan Concrete Society 2023 Annual Conference and Concrete Engineering Seminar, December 1-2, Taipei, Taiwan.
  2. Joju, J, Ou, Y.C., and Wang, W.L. (2023). "Development and seismic behavior evaluation of RCS joints with circular columns." SEEBUS, December 1-2, Taipei, Taiwan.
  3. Joju, J, Ou, Y.C., and Lai, B.C. (2023). "Analytical and experimental joint force-deformation response evaluation of eccentric new RCS joints." Taiwan Concrete Institute Annual Conference, December 1-2, Taipei, Taiwan.
  4. Ou, Y.C., Sutejo, H., and Huang, J.L. (2022). “Seismic behavior of concrete beams with different types of hoops in the plastic hinge region.” Proceedings of 2022 Taiwan-Japan Workshop on Structural and Bridge Engineering, December 9-11, Nagoya, Japan.
  5. Jones Joju, Ou, Y.C., Liu, Y.C., Hsu, W.C., and Hsieh, M.Y. (2022). “Unstressed steel strands as longitudinal reinforcement in reinforced concrete elements.” 8th Asia Conference on Earthquake Engineering, November 9-11, Taipei, Taiwan.
  6. Wu, J.W., Ou, Y.C. (2022). “Seismic behavior of bridge columns by non-prestressed steel strands.” 8th Asia Conference on Earthquake Engineering, November 9-11, Taipei, Taiwan.
  7. 歐昱辰, 黃俊霖, 顏聖益. (2022). “塑鉸區閉合箍筋形式對混凝土大梁耐震行為之影響.” 第16屆結構工程研討會暨第6屆地震工程研討會論文集, 8月24-26, 新北市, 臺灣.
  8. 歐昱辰, 吳振維. (2022). “無預力部分無握裹鋼絞線橋柱之耐震行為.” 第16屆結構工程研討會暨第6屆地震工程研討會論文集, 8月24-26, 新北市, 臺灣.
  9. 歐昱辰, 黃婕渝, Bui Cong Thanh. (2022). “高強度鋼筋混凝土梁剪力強度與裂縫行為.” 第16屆結構工程研討會暨第6屆地震工程研討會論文集, 8月24-26, 新北市, 臺灣.
  10. Havlasek, Petr, Li, Brandon, Ou, Y.C., Bittnar, Zdenek. (2022). “Interaction diagram for columns with multispiral reinforcement: experimental data vs. blind prediction using CDPM2.” EURO-C 2022, Computational modelling of concrete and concrete structures, March 21-24, Obergurgl, Austria.
  11. Sutejo, H., Ou, Y.C. (2022). “Behavior and Design of Reinforced Concrete Walking Columns.” Proceeding of International Conference on Sustainable Infrastructure and Built Environment (SIBE), March 8-9, Bandung, Indonesia.
  12. 歐昱辰. (2021). “鋼筋混凝土柱與鋼梁複合式結構梁柱接頭規範草案.” 臺灣混凝土學會2021年混凝土工程研討會論文集, 11月18-19, 高雄市, 臺灣.
  13. 歐昱辰, 林軒佑, 陳季璘. (2021). “預力混凝土箱型橋梁長期撓度控制.” 臺灣混凝土學會2021年混凝土工程研討會論文集, 11月18-19, 高雄市, 臺灣.
  14. Ou, Y.C., and Nguyen, N.V.B. (2021). “Seismic shear behavior of high-strength reinforced concrete column-eccentric steel beam joints.” The 22nd Taiwan-Japan-Korea Joint Seminar on Earthquake Engineering for Building Structures (SEEBUS) October 15, Suwon, Korea.
  15. 歐昱辰. (2021). “新版混凝土結構設計規範介紹.” 「混凝土結構設計規範」研討會 (臺北二場), 1月30日, 臺北市, 臺灣.
  16. 歐昱辰, 李翼安. (2021). “耐震設計及既有結構物評估.” 「混凝土結構設計規範」研討會 (臺北二場), 1月30日, 臺北市, 臺灣.
  17. 歐昱辰. (2021). “新版混凝土結構設計規範介紹.” 「混凝土結構設計規範」研討會 (臺北一場), 1月16日, 臺北市, 臺灣.
  18. 歐昱辰, 李翼安. (2021). “耐震設計及既有結構物評估.” 「混凝土結構設計規範」研討會 (臺北一場), 1月16日, 臺北市, 臺灣.
  19. 歐昱辰. (2020). “新版混凝土結構設計規範介紹.” 「混凝土結構設計規範」研討會 (臺中場), 12月19日, 臺中市, 臺灣.
  20. 歐昱辰, 李翼安. (2020). “耐震設計及既有結構物評估.” 「混凝土結構設計規範」研討會 (臺中場), 12月19日, 臺中市, 臺灣.
  21. 歐昱辰. (2020). “南方澳大橋倒塌肇因分析.” 第一屆臺灣後拉預力科技研討會, 12月11日, 臺北市, 臺灣.
  22. 歐昱辰. (2020). “新版混凝土結構設計規範介紹.” 「混凝土結構設計規範」研討會 (臺南場), 9月5日, 臺南市, 臺灣.
  23. 歐昱辰, 李翼安. (2020). “耐震設計及既有結構物評估.” 「混凝土結構設計規範」研討會 (臺南場), 9月5日, 臺南市, 臺灣.
  24. Ou, Y.C., and Nguyen-Van, B.N. (2020). “Effect of axial compression on minimum shear reinforcement for columns using high strength concrete and reinforcement.” Proceedings of the Fifteenth National Conference on Structural Engineering/The Fifth National Conference on Earthquake Engineering, 2-4 September, Tainan, Taiwan.
  25. 歐昱辰, 吳振維. (2020). “無預力部分無握裹鋼絞線橋柱之耐震行為.” 中華民國第15屆結構工程及第5屆地震工程研討會論文集, 9月2-4, 臺南市, 臺灣.
  26. Ou, Y.C. (2020). “Taiwan New RC project.” Proceedings of the 4th International Conference on Civil Engineering Research (ICCER), July 22-23, Surabaya, Indonesia.
  27. 歐昱辰. (2020). “我國混凝土結構設計規範之最新變革.” 2020高強度鋼筋混凝土推廣應用研討會, 3月18日, 嘉義市, 臺灣.
  28. Ou, Y.C., Yin, S.Y.L., Liu, Y.Q., and Wang, J.C. (2019). “Cyclic behavior of a reinforced concrete column with unstressed seven-wire steel strands as longitudinal reinforcement.” The 21th Taiwan-Japan-Korea Joint Seminar on Earthquake Engineering for Building Structures (SEEBUS), December 6, Hsinchu, Taiwan.
  29. Ou, Y.C., and Nguyen, N.V.B. (2019). “Seismic shear behavior of slender high-strength reinforced concrete columns.” Proceedings of TCI 2019 Conference on Concrete Engineering, November 28-29, Taipei, Taiwan.
  30. 歐昱辰. (2019). “我國混凝土結構設計規範之最新變革.” 高強度鋼筋及混凝土(New RC)推廣應用研討會, 11月7日, 臺北市, 臺灣.
  31. 歐昱辰. (2019). “圓形CFT柱翼板貫穿式梁柱接頭工法.” 冷軋及冷沖壓鋼管柱在建築結構之應用研討會, 9月18日, 臺北市, 臺灣.
  32. Ou, Y.C., and Wu, J.W. (2019). “Mitigation of residual displacements of RC bridge columns by partially unbonded high-strength steel strands.” International Conference in Commemoration of 20th Anniversary of the 1999 Chi-Chi Earthquake, September 15-19, Taipei, Taiwan.
  33. 歐昱辰. (2019). “圓形CFT柱翼板貫穿式梁柱接頭工法.” 冷軋及冷沖壓鋼管柱在建築結構之應用研討會, 8月30日, 高雄市, 臺灣.
  34. 歐昱辰. (2019). “我國混凝土結構設計規範之因應.” ACI 318-19主要變革與我國混凝土結構設計規範之因應研討會, 7月8日, 臺北市, 臺灣.
  35. Ou, Y.C. (2019). " Cyclic behavior of concrete columns with unstressed Grade 1860 seven-wire strand as longitudinal reinforcement." Proceedings of the 5th Workshop with NCREE and Kyushu University, Fukuoka, Japan, April 6.
  36. Ou, Y.C. (2019). " Cyclic Behavior of Concrete Columns with Unstressed Grade 1860 Seven-Wire Strand as Longitudinal Reinforcement." Proceedings of 2019 Taiwan-Japan Workshop on Structural and Bridge Engineering, Kyoto, Japan, April 2-April 3.
  37. Ou, Y.C., and Liu, K.Y. (2019). “Confined Concrete Model and Design of High-Strength Reinforced Concrete Columns.” Recent Advances in Construction, Evaluation and Repair of Concrete Structures and Materials: International Perspectives with KCI and TCI, March 24-28, 2019 ACI Spring Convention, Quebec City, Quebec, Canada.
  38. Ou, Y.C., and Nguyen-Van, B.N. (2018). "Seismic Shear Behavior of Slender High-Strength Reinforced Concrete Columns." The twentieth Taiwan-Japan-Korea Joint Seminar on Earthquake Engineering for Building Structures (SEEBUS), Kyoto, Japan, November 2-3.
  39. 歐昱辰, Nguyen V.B.N. (2018). "高強度鋼筋混凝土柱剪力強度試驗研究." 2018國家地震工程研究中心實驗成果研討會, 7月16日, 台北市, 臺灣.
  40. 歐昱辰 (2018). "高強度鋼筋混凝土結構." 2018國立臺灣大學工學院地震工程研究中心40週年慶特刊, 6月14日, 台北市, 臺灣.
  41. Ou, Y.C. (2018). "Mitigation of residual displacements of reinforced concrete bridge columns by partially unbonded nonprestressed prestressing steel strands." Proceedings of the 4th Workshop with NCREE and Kyushu University, Taipei, Taiwan, May 18.
  42. Ou, Y.C., Pratiwi, A.Y., and Wu, J.W. (2018). “Mitigation of residual displacements of RC bridge columns by partially unbonded high-strength steel strands.”Proceedings of 2018 Taiwan-Japan Workshop on Structural and Bridge Engineering, Taipei, Taiwan, April 3-4.
  43. Ou, Y.C., and Truong, A.N. (2017). "Cyclic Behavior of Retrofitted L- and T-Shaped Reinforced Concrete Columns." The Nineteenth Taiwan-Japan-Korea Joint Seminar on Earthquake Engineering for Building Structures (SEEBUS), Seoul, Korea, September 8-9.
  44. Ou, Y.C. (2017). "Hysteretic damping of self-centering precast concrete segmental bridge columns." Proceedings of the 3rd Workshop with NCREE and Kyushu University, Fukuoka, Japan, April 4.
  45. Ou, Y.C. (2017). "Shear and flexural strength predictions of prestressed concrete bridge girders with self-compacting concrete." Proceedings of 2017 Taiwan-Japan Workshop on Structural and Bridge Engineering, Kyoto, Japan, March 31-April 2.
  46. Ou, Y.C., Pratiwi, A.Y., Bu, Z.Y., Song, J.W., and Lee, G.C. (2017). “Equivalent viscous damping for self-centering precast concrete segmental bridge columns.” Proceedings of 16th World Conference on Earthquake Engineering, Santiago, Chile, Jan. 9-13.
  47. Ou, Y.C., Alrasyid, H., Haber, Z.B., and Lee, H.J. (2017). “Cyclic behavior of precast high-strength reinforced concrete columns with grouted-spliced longitudinal and welded-spliced transverse reinforcement.” Proceedings of 16th World Conference on Earthquake Engineering, Santiago, Chile, Jan. 9-13.
  48. Ou, Y.C., Hoang, L., Huang, G.L., and Tao, Q.J. (2016). “Methods for predicting shear strength of reinforced concrete squat walls with opening.” The Thirteenth National Conference on Structural Engineering/The Third National Conference on Earthquake Engineering, Taoyuan, Taiwan, August 24-26.
  49. Ou, Y.C., Wang, P.H., and Chang, K.C. (2016). "A new smooth hysteretic model for ductile flexural-dominated RC bridge columns." Proceedings of 2016 Taiwan-Japan Workshop on Structural and Bridge Engineering, Taipei, Taiwan, May 24-25.
  50. 歐昱辰. (2015). “高強度鋼筋混凝土柱之撓曲與剪力設計.” 高強度鋼筋混凝土(New RC)結構設計手冊研討會, 12月11日, 台北市, 台灣.
  51. Ou, Y.C., and Pratiwi A. Y. (2015). "Displacement-based design for precast segmental unbonded post-tensioned concrete bridge columns with energy dissipation bars." ACI Fall Convention, Denver, USA, November 8-12.
  52. 歐昱辰, 陶其駿, 吳靖儀, Victor Luis. (2015). “低矮鋼筋混凝土沿街式新建建築屋後外牆之耐震設計與評估.” 低矮鋼筋混凝土建築耐震設計、評估與補強技術與政策推動研討會, 11月6日, 台北市, 台灣.
  53. Ou, Y.C., and Nguyen, D. N. (2015). "Influence of reinforcement corrosion on cyclic behavior of reinforced concrete beams." 2015 Symposium on Reliability of Engineering Systems (SRES), Taipei, Taiwan, October 21-24.
  54. Ou, Y.C., and Nguyen, D. N. (2015). "Modified axial-shear-flexure interaction approach for load-displacement prediction of uncorroded and corroded reinforced concrete beams." 2015 Symposium on Reliability of Engineering Systems (SRES), Taipei, Taiwan, October 21-24.
  55. Ou, Y.C., and Nguyen, D. N. (2015). "Lateral force-displacement prediction of uncorroded and corroded reinforced concrete beams using modified axial-shear-flexure interaction approach." The Seventeenth Japan-Korea-Taiwan Joint Seminar on Earthquake Engineering for Building Structures (SEEBUS), Yokohama and FujiKawaguchiko, Japan, September 17-20.
  56. Ou, Y.C. (2015). "Equivalent viscous damping for self-centering precast segmental unbonded-posttenioned concrete bridge columns." Proceedings of 2015 Taiwan-Japan Workshop on Structural and Bridge Engineering, Kyoto, Japan, April 2-4.
  57. Ou, Y.C., and Nguyen, D.N. (2014). “Cyclic behavior of corroded reinforced concrete beams.” The fourth International Symposium on Life-cycle Civil Engineering, Tokyo, Japan, November 16-19.
  58. Ou, Y.C., and Alrasyid, H. (2014). "Cyclic testing of precast high-strength reinforced concrete columns with welded transverse reinforcement." The Sixteenth Japan-Korea-Taiwan Joint Seminar on Earthquake Engineering for Building Structures (SEEBUS), Seoul, Korea, September 19-20.
  59. Ou, Y.C. (2014). "Lateral force-displacement response prediction for corroded reinforced concrete beams using axial-shear-flexure interaction approach." Proceedings of the 2014 Taiwan-Japan Workshop on Structural and Bridge Engineering, Taipei, Taiwan, April 21-22.
  60. Ou, Y.C., and Nguyen, D.N. (2014). "Seismic behavior of corroded reinforced concrete beams." International Symposium on Reliability Engineering and Risk Management (ISRERM), Taipei, Taiwan, May 20-24.
  61. Ou, Y.C., Ngo, S.H., Yin, Y.L., Wang, J.C., and Wang, P.H. (2014). "Innovative multi-spiral transverse reinforcement for reinforced concrete bridge columns." International Symposium on Reliability Engineering and Risk Management (ISRERM), Taipei, Taiwan, May 20-24.
  62. Ou, Y.C., Tran, N.M., Chen, C.C., and Lee, H.J. (2014). "Panel zone shear behavior of through flange connections for steel beams and concrete-filled steel tubular columns." International Symposium on Reliability Engineering and Risk Management (ISRERM), Taipei, Taiwan, May 20-24.
  63. Ou, Y.C., and Kurniawan, D.P. (2013). "Effect of axial compression on shear strength of reinforced concrete columns with high-strength steel and concrete." The fifteenth Japan-Korea-Taiwan Joint Seminar on Earthquake Engineering for Building Structures (SEEBUS), Taipei, Taiwan, November 28-29.
  64. Ou. Y.C., and Santoso, A.C.H. (2013). "Research and application of precast segmental concrete bridge columns in regions of high seismicity." Indonesian Engineers Society of Wind and Earthquake Resistance Structures, Medan, Indonesia, April 25-26.
  65. Ou, Y.C. (2013). "Discrete shear strength models for single- two- and seven-circular-hoop and spiral reinforcement." Proceedings of 6th Taiwan-Japan workshop on structural and bridge engineering, Kyoto, Japan, April 4-5.
  66. Ou, Y.C., Nguyen, N.D. (2012). "Plastic hinge length of corroded reinforced concrete beams." The Fourteenth Japan-Korea-Taiwan Joint Seminar on Earthquake Engineering for Building Structures (SEEBUS), Osaka, Japan, November 1-3. Link
  67. Oktavianus, Y., Hsiao, F.P., and Ou, Y.C. (2012). “Study on advanced pushover analysis applied in tall and asymmetric buildings.” The Eleventh National Conference on Structural Engineering, Taichung, Taiwan, September 5-7
  68. Ou, Y.C., Delima, A.B., and Cute, L. (2012). “Life-cycle seismic evaluation of existing reinforced concrete bridges considering corrosion of steel reinforcement.” Proceedings of 6th International Conference on Bridge Maintenance, Safety and Management, Stresa, Lake Maggiore, Italy, July 8-12.
  69. Ou, Y.C., Chang, K.C., Tsai, M.S., Wang, P.H., and Lee, G.C. (2012). “Research and application of precast segmental concrete bridge columns in regions of high seismicity.” Proceedings of 6th International Conference on Bridge Maintenance, Safety and Management, Stresa, Lake Maggiore, Italy, July 8-12.
  70. Ou, Y.C. (2012). “Effects of ground motion duration on bridge column responses.” Proceedings of the 2012 Taiwan-Japan Bridge Workshop, Taipei, Taiwan, March 19-20.
  71. Ou, Y.C., and Chen, H.H.. (2011). “Cyclic tests of reinforced concrete beams with corroded transverse reinforcement.” Taiwan Concrete Institute (TCI) 2011 Concrete Technology Conference, Tainan, Taiwan, November 18-19.
  72. 葉勁宏, 林粲翎, 鄭敏元, 歐昱辰, 周瑞生. (2011). “地震災害TELES潛勢分析與運用:以臺北市五事件為例,” 100年度臺北市災害防救深耕計畫研討會:極端氣候下都會區颱洪、地震與坡地坍塌複合性災害防救, 國立臺灣科技大學, 台北市.
  73. 鄭敏元, 歐昱辰, 周瑞生, 葉勁宏. (2011). “TELES 軟體之結構分析理論背景概述,” 100年度臺北市災害防救深耕計畫研討會:極端氣候下都會區颱洪、地震與坡地坍塌複合性災害防救, 國立臺灣科技大學, 臺北市.
  74. Ou, Y.C., and Chen, H.H. (2011). “Cyclic behavior of reinforced concrete beams with corroded transverse reinforcement.” The Thirteen Japan-Korea-Taiwan Joint Seminar on Earthquake Engineering for Building Structures (SEEBUS), Seoul, Korea, November 11-12.
  75. Ou, Y.C., Tsai, M.S., Yusak, O., and Chang, K.C. (2011). “Cyclic test of a precast segmental concrete bridge column with a cast-in-place plastic hinge region.” The 2011 World Congress on Advances in Structural Engineering and Mechanics, Seoul, Korea, September 18-22.
  76. Delima, A.B., Ou, Y.C., and Raka, I., (2011). “Assessment of reinforced concrete bridge under earthquake resistance design considering corrosion effect.” The 2nd International Conference on Earthquake Engineering and Disaster Mitigation (ICEEDM), Surabaya, Indonesia, July 19-20.
  77. Ou, Y.C., Tsai, M.S., Wang, P.H., and Chang, K.C. (2011). “Cyclic test of a large-scale tall precast segmental concrete bridge column with a cast-in-place plastic hinge region.” Proceedings of 4th Taiwan-Japan workshop on bridge engineering, Kyoto, Japan, April 2-3.
  78. Ou, Y.C., Tsai, L.L., and Chen, H.H. (2011). “Cyclic behavior of reinforced concrete beams with corroded reinforcing bars.” 3rd Asia-Pacific Young Researchers and Graduates Symposium, Taipei, Taiwan, March 25-26.
  79. Ou, Y.C., Tsai, L.L., and Chen, H.H. (2010). “Cyclic behavior of reinforced concrete beams with corroded steel reinforcement.” The Tenth National Conference on Structural Engineering, Taoyuan, Taiwan, December 1-3. (In Chinese)
  80. Ou, Y.C., Tsai, M.S., Wang, H.J., and Chang, K.C. (2010). “Force reduction factors for precast segmental bridge columns.” The Tenth National Conference on Structural Engineering, Taoyuan, Taiwan, December 1-3. (In Chinese)
  81. Ou, Y.C., Tsai, L.L., and Chen, H.H. (2010). “Cyclic behavior of reinforced concrete beams with corroded steel reinforcement.” The 4th ACF International Conference, Taipei, Taiwan, November 28-December 1.
  82. Ou, Y.C., Tsai, M.S., Chang, K.C., and Lee, G.C. (2010). “Precast post-tensioned segmental concrete bridge columns for regions of high seismicity.” The 4th ACF International Conference, Taipei, Taiwan, November 28-December 1.
  83. Ou, Y.C., Tsai, L.L., and Chen, H.H. (2010). “Seismic performance of reinforced concrete beams with corroded steel reinforcement.” The Twelve Japan-Korea-Taiwan Joint Seminar on Earthquake Engineering for Building Structures (SEEBUS), Kaohsiung, Taiwan, November 26-27.
  84. Ou, Y.C., Tsai, L.L., and Chen, H.H. (2010). “Cyclic behavior of reinforced concrete beams with corroded reinforcing bars.” The Second International Symposium on Life-cycle Civil Engineering, Taipei, Taiwan, October 27-31.
  85. Lee, G.C., and Ou, Y.C. (2010). “Seismic behavior and design of precast segmental concrete bridge columns for regions of high seismicity.” 8th International Conference on Short and Medium Span Bridge, Niagara Falls, Ontario, Canada, August 3-6.
  86. Ou, Y.C., Tsai, M.S., Chang, K.C., and Lee, G.C. (2010). “Cyclic behavior of precast segmental concrete bridge columns with high performance steel rebar as energy dissipation bars.” 9th US National and 10th Canadian Conference on Earthquake Engineering, Toronto, Ontario, Canada, July 25-29.
  87. Lee, G.C., Ou, Y.C., Y. Zhou, Chang, K.C., and Tsai, M.S. (2010). “Seismic behavior and design of a precast segmental unbonded post-tensioned concrete bridge column with energy dissipation bars.” 2010 FHWA Bridge Engineering Conference: Highway for LIFE and Accelerated Bridge Construction, Orlando, Florida, April 8-9.
  88. Ou, Y.C., Tsai, M.S., Chang, K.C., and Lee, G.C. (2010). “Direct displacement-based design of precast segmental unbonded post-tensioned concrete bridge columns with energy dissipation bars.” Proceedings of 3rd Taiwan-Japan workshop on bridge engineering, Taipei, Taiwan, March 13-14.
  89. Chang, K.C., Ou, Y.C., Tsai, M.S. (2009). “Research and application of precast segmental bridge columns.” 2009 Cross-strait Conference on Civil Engineering, Kinmen, Taiwan, December 8. (In Chinese)
  90. Ou, Y.C., and Kurniawan, R.A. (2009). “Plastic hinge length of circular reinforced concrete columns.” The Eleventh Taiwan-Korea-Japan Joint Seminar on Earthquake Engineering for Building Structures (SEEBUS), Kyoto, Japan, December 3-4.
  91. Ou, Y.C., Tsai, M.S., Wang, H.J., Chang, K.C. (2009). “Force reduction factors for precast segmental bridge columns.” Taiwan Concrete Institute (TCI) 2009 Annual Conference, Taichung, Taiwan, November 6-7. (In Chinese)
  92. Ou, Y.C. (2009). “State of practice of accelerated bridge construction in the United States.” Follow-up Conference on the 4th Taiwan-US Conference on Bridge Engineering, Taipei, Taiwan, August 14. (In Chinese)
  93. Ou, Y.C., Tsai, M.S, Chang, K.C., and Lee, G.C. (2009). “Cyclic behavior of precast segmental concrete bridge columns with high performance or conventional steel reinforcing bars as energy dissipation bars.” International specialty workshop on seismic connection details for segmental bridge construction, Seattle, Washington, July 22-24.
  94. Chang, K.C., Ou, Y.C., Tsai, M.S, and Lee, G.C. (2009). “Research and application of precast segmental concrete bridge columns in Taiwan.” International specialty workshop on seismic connection details for segmental bridge construction, Seattle, Washington, July 22-24.
  95. Ou, Y.C. (2009). “Seismic design of precast segmental bridge columns.” Conference on Seismic Design and Retrofit of Reinforced Concrete Columns, Taipei, Taiwan, July 17. (In Chinese)
  96. Ou, Y.C. (2009). “Precast segmental concrete bridge columns for seismic regions.” Proceedings of 2nd Taiwan-Japan workshop on bridge engineering, Kyoto, Japan, March 13-14.
  97. Ou, Y.C., Chang, K.C., Lee, G.C., Wang, J.C., Wang, P.H., and Tsai, M.S. (2008). "Development of precast segmental concrete bridge columns for seismic regions." Proceedings of 2008 KCI-JCI-TCI symposium, Ilsan, Korea, Nov. 6-8.
  98. Lee, G.C., Ou, Y.C., Song, J., Niu, T., and Liang, Z. (2008). “A roller seismic isolation bearing for highway bridges.” Proceedings of 14th World Conference on Earthquake Engineering, Beijing, China, Oct. 12-17.
  99. Zhou, Y., Ou, Y.C., Lee, G.C., and O'Connor, J. (2008). “Low-cycle fatigue behavior of stainless steel reinforcing bars.” Proceedings of 6th National Seismic Conference on Bridges and Highways, Charleston, SC, U.S.A., July 27-30.
  100. Ou, Y.C., Tsai, M.S., Wang, P.H., Chang, K.C., and Lee, G.C. (2008). "Experimental investigations of precast segmental bridge columns seismically isolated with lead-rubber bearings." Proceedings of 6th National Seismic Conference on Bridges and Highways, Charleston, SC, U.S.A., July 27-30.
  101. Ou, Y.C., Wang, P.H., Tsai, M.S., Chang, K.C., and Lee, G.C. (2008). “Precast segmental construction of concrete bridge columns.” Proceedings of 4th International Conference on Bridge Maintenance, Safety and Management, Seoul, Korea, July 13-17.
  102. Chang, K.C., Ou, Y.C., Wang, J.C., Wang, P.H., Tsai, M.S., and Lee, G.C. (2008). “Research and application of precast segmental bridge columns for seismic regions.” Proceedings of 4th International Conference on Bridge Maintenance, Safety and Management, Seoul, Korea, July 13-17.
  103. Ou, Y.C., Wang, P.H., Tsai, M.S., Chang, K.C., and Lee, G.C. (2007). “Cyclic tests of precast segmental unbonded post-tensioned concrete bridge columns for seismic regions." Proceedings of TCI 2007 Conference on Concrete Engineering, Taipei, Taiwan, Nov. 2-3.
  104. Chang, KC., Tsai, M.S., Wang, P.H., Ou, Y.C., and Lee, G.C. (2007). “Precast post-tensioned segmental bridge columns for seismic regions.” Proceedings of 20th KKCNN Symposium on Civil Engineering, Jeju, Korea, Oct. 3-6.
  105. Ou, Y.C., Wang, P.H., Tsai, M.S., Chang, K.C., and Lee, G.C. (2007). “Cyclic tests of precast segmental unbonded post-tensioned concrete bridge piers.” Innovations in Bridge Engineering Technology: Selected Papers, 3rd NYC Bridge Conference, New York, NY, U.S.A., Aug. 27-28.
  106. Chang, K.C., Lee, G.C. Ou, Y.C., Wang, P.H., and Tsai, M.S. (2006). “Experimental research on post-tensioned pre-cast segmental bridge columns.” Proceedings of 19th KKCNN Symposium on Civil Engineering, Kyoto, Japan, Dec. 10-12.
  107. Ou, Y.C., Wang, P.H., Chang, K.C., and Lee, G.C. (2006). “Seismic-resistant connections for prefabricated segmental bridge.” Proceedings of Fifth National Seismic Conference on Bridges and Highways, San Francisco, CA, U.S.A., Sep. 18-20.
  108. Yin, Y.L., Chang, K.C., Wang, J.C., and Ou, Y.C. (2006). “Development of accelerated precast construction in Taiwan.” Proceedings of 2006 ASCE Structural Congress, St. Louis, MO, U.S.A., May 18-20.
  109. Ou, Y.C., Wang, J.C., Chang, K.C., and Lee, G.C. (2006). “Experimental evaluation of precast prestressed segmental concrete bridge columns.” Proceedings of 2006 ASCE Structural Congress, St. Louis, MO, U.S.A., May 18-20.
  110. Ahn, I.S., Aref, A.J., Chen, S.S., Chiewanichakorn, M., Lee, G.C., and Ou, Y.C. (2005). “Accelerated modular construction: seismic considerations.” Proceedings of FHWA Accelerated Bridge Construction Conference - Path to Future, San Diego, CA, U.S.A., Dec. 14-16.
  111. Ou, Y.C., Chiewanichakorn, M., Ahn, I.S., Aref, A.J., Chen, S.S., Filiatrault, A., Lee, G.C., Liang, Z., and O'Connor, J. (2005). “Modeling of the precast unbonded post-tensioned segmental bridge column under lateral load.” Proceedings of 2005 PCI National Bridge Conference, Palm Springs, CA, U.S.A., Oct. 16-19.
  112. Lee, G.C., Liang, Z., and Ou, Y.C. (2005). “Low-cycle fatigue in limit state seismic design of steel structures.” Proceedings of 3rd International Symposium on Steel Structures ISSS '05, Seoul, Korea, Mar. 10-11.
  113. Chang, K.C., Chan, Y.W., Ou, Y.C., and Wang, J.C. (2004). “Full scaled verification tests of a scaffolding system.” Proceedings of Third KU-KAIST-NTU Student Seminar on Civil Engineering Research, Tuna Height in Awaji, Japan, Feb. 25-28.
  114. Lee, G.C., Liang, Z., and Ou, Y.C. (2003). “Development of damage-based limit states in performance-based seismic design for steel bridges.” Proceedings of Second PRC-US Workshop on Seismic Analysis and Design of Special Bridges, Buffalo, NY, U.S.A., Dec. 3-5.
  115. Chan, Y.W., and Ou, Y.C. (2001). "Effect of chemical admixtures on self-compacting capability of Self-Compacting Concrete." Application of Superplasticizer in Concrete, Taipei, Taiwan, 171-183. (In Chinese)
報告與論文
Reports and Dissertations
  1. 歐昱辰, 林毓婷. (2023). “SD690新材料新工法開發.” NCREE-2023-001, 國家地震工程中心技術報告, 臺北市, 臺灣.
  2. 歐昱辰, 黃俊霖. (2022). “創新大梁耐震箍筋研究.” NCREE-2022-007, 國家地震工程中心技術報告, 臺北市, 臺灣.
  3. 歐昱辰, 周中哲, 王威儒, 賴柏丞. (2021). “新型鋼骨預鑄混凝土複合式構架接頭試驗報告.” NCREE-2021-003, 國家地震工程中心技術報告, 臺北市, 臺灣.
  4. Ou, Y.C., Nhien, T.A., Zhang, R.T., Chen, Y.M., and Liu, Y.Q. (2017). "Retrofit of nonductile reinforced concrete columns of mid-rise buildings using reinforced concrete jacketing." Research Report, Architecture and Building Research Institute, ISBN: 9789860543223. (In Chinese)
  5. Ou, Y.C., Tsai, T.C., Lai, Y.Y., and Wang, Z.J. (2016). "Seismic strengthening of low-rise reinforced concrete buildings using non-rectangular columns." Research Report, Architecture and Building Research Institute, ISBN: 9789860509298. (In Chinese)
  6. Ou, Y.C., Wu, J.Y., Wang, Z.J., and Wu, Z.W. (2015). “Manual for seismic design of street houses.”Research Report, Architecture and Building Research Institute, ISBN: 9789860468076. (In Chinese)
  7. Ou, Y.C., Zhou, Y.Q., Zhang, G.W., and Liang, Z.Y. (2014). "Seismic capacity upgrade of exterior walls with typical opening of low-rise reinforced concrete street residential buildings," Research Report, Architecture and Building Research Institute, ISBN: 9789860431889. (In Chinese)
  8. Chen, C.C., Ou, Y.C., and Zhong, Z.X. (2013). "Experimental study on concrete-encased steel column frames for seismic design of transverse reinforcement," Research Report, Architecture and Building Research Institute, ISBN: 9789860389746. (In Chinese)
  9. Ou, Y.C., Lin, T.S., Yeh, C.T., Chiu, I-H., and Liao, Y.R. (2013). "Research and demonstration design of equipment and material management system for emergency shelters," Research Report, Taipei City Fire Department. (In Chinese)
  10. Ou, Y.C., Chen, C.C., Lee, H.J., and Du, Y.S. (2013). "Seismic behavior of exterior walls with typical opening of low-rise reinforced concrete street houses," Research Report, Architecture and Building Research Institute, ISBN: 9789860389722. (In Chinese)
  11. Ou, Y.C., Chen, C.C., Lee, H.J., and Tsai, W.H. (2012). "Seismic behavior and detailing of steel beam to CFT column connections," Research Report, Architecture and Building Research Institute, ISBN: 9789860344967. (In Chinese)
  12. Lin, J.H. Chen, C.T., Ou, Y.C., Chiu, C.K., and Ye, J.H. (2012). "Effect of corrosion locations in beam longitudinal reinforcement on ductile behavior of beams," Research Report, Architecture and Building Research Institute, ISBN: 9789860344813. (In Chinese)
  13. He, M.J., Ou, Y.C., Chiu, C.K., and Chen, C.T. (2011). “Influences of steel reinforcement corrosion on the seismic performance and life cycle of RC members: beams with corroded stirrups,” Research Report, Architecture and Building Research Institute, ISBN: 978-986-03-0607-1. (In Chinese)
  14. 周瑞生, 歐昱辰, 鄭敏元, 葉勁宏. (2011). “臺北市地震災害潛勢資料全面調查分析書面報告,” 臺北市政府消防局; 國立臺灣科技大學生態與防災工程研究中心.
  15. He, M.J., Chiu, C.K., Ou, Y.C., Tsai, L.L, and He, J.W. (2009). “Influences of steel reinforcement corrosion on the seismic performance and life cycle of RC members: beams with corroded stirrups,” Research Report, Architecture and Building Research Institute, ISBN: 978-986-02-1769-8. (In Chinese)
  16. Ou, Y.C. (2007). Precast segmental post-tensioned concrete bridge columns for seismic regions. Ph.D. Dissertation, Department of Civil, Structural, Environmental Engineering, University at Buffalo, the State University of New York State, U.S.A. TOC
  17. Lee, G.C., Ou, Y.C., Liang, Z., Niu, T.C., Song, J. (2007). “Principles and performance of roller seismic isolation bearings for highway bridges.” Report No. MCEER-07-0019, Multidisciplinary Center for Earthquake Engineering Research, University at Buffalo, State University of New York at Buffalo, NY. U.S.A.
  18. Chang, K.C., Lee, G.C., Ou, Y.C., Wang, P.H., and Tsai, M.S. (2007). “Taiwan-U.S. cooperative experimental research program on segmental precast post-tensioned bridge columns.” Research Report NCREE-07-022, National Center for Research on Earthquake Engineering, Taipei, Taiwan.
  19. Chang, K.C., Chan, Y.W., Ou, Y.C., and Wang, J.C. (2003). "Loading performances studies and analyses of S50 shoring systems." Department of Civil Engineering, National Taiwan University, Taipei. (In Chinese)
  20. Chang, K.C., Chan, Y.W., Ou, Y.C., and Wang, J.C. (2003). "Loading performances studies and analyses of T30 truss frames system." Department of Civil Engineering, National Taiwan University, Taipei. (In Chinese)
  21. 歐昱辰. (2001). 自充填混凝土配比及早期行為研究. 碩士論文, 國立台灣大學土木工程研究所, 台北, 台灣.
    目錄
    Ou, Y.C. (2001). Mix proportions and early-age behavior of self-compacting concrete. M.S. Thesis, Department of Civil Engineering, National Taiwan University, Taipei, Taiwan. (In Chinese) TOC