鄭全桓

學歷

• B.S., National Cheng-Kung University, 1984-1988
• M.S., University of Wisconsin-Madison, 1992
• Ph.D., University of Houston, 1998-2002

• Reinforced Concrete, Tue. 9-12am, 436 Tech-Hall 2
• Elementary Structural Analysis
• Matrix Methods for Structural Analysis
• Computer-Aided Structural Engineering

• 結構混凝土構件實驗與理論研究
• 結構工程應用手機App軟體開發
• 大跨度鋼拱橋全橋推進施工法研究
• Experimental and Theoretical Investigation of Concrete Members in Torsion; Finite Fiber Element Analysis of Concrete Members and Frames

• 獲104、105、108、109年度科技部特殊優秀人才奬勵
• 國立暨南大學 99、100、101、102、103、104、105、107、108、109 學年度學術研究奬

• 1. Jeng, C.-H.*, Chiu, H.-J., Lu, C.-W., and Chao, M., 2020, Aug., “Innovative Launch of Long-Span Arch Bridge Across Waterway using Special Hydraulic Crawler,” Practice Periodical on Structural Design and Construction, ASCE, Vol. 25, No. 3, pp. 05020005-1 ~ 05020005-14, DOI: 10.1061/(ASCE)SC.1943-5576.0000496 (SCI), (MOST 105-2622-E-260-001-CC3).
• 2. Jeng, C.-H.*, Chao, M., and Chuang, H.-C., 2019, Oct., “Torsion Experiment and Cracking-torque Formulae of Hollow Prestressed Concrete Beams,” Engineering Structures, Vol. 196, Article 109325, 23pp. https://doi.org/10.1016/J.ENGSTRUCT.2019.109325 (SCI), (MOST 105-2221-E-260-005-; MOST 106-2221-E-260-012- ).
• 3. Chao, M., Chiu, H.-J., Lu, C.-W., and Jeng, C.-H.*, 2019, Sept., “Using Three-Dimensional Laser Scanning for Monitoring a Long-span Arch Bridge Launch,” Proceedings of the Institution of Civil Engineers - Bridge Engineering, Vol. 172, No. 3, pp. 204-216, https://doi.org/10.1680/jbren.18.00036, (EI), (MOST 105-2622-E-260-001-CC3).
• 4. Jeng, C.-H.*, and Chao, M., 2019, July, Discussion Closure, “Torsion Experiment and Cracking-torque Formulas of Prestressed Concrete Beams,” ACI Structural Journal, Vol. 116, No. 4, pp. 297-299 (SCI).
• 5. Jeng, C.-H.*, and Chao, M., 2018, Sept., “Torsion Experiment and Cracking-torque Formulas of Prestressed Concrete Beams,” ACI Structural Journal, Vol. 115, No. 5 pp. 1267-1278 (SCI), (MOST 104-2622-E-260-002-CC3).
• 6. Chao, M., and Jeng, C.-H.*, 2017, Jun., “Pre- and Post-cracking Torsion in Prestressed Concrete Beams: Experimental Study,” Magazine of Concrete Research, Vol. 69, No. 11, pp. 555-575 (SCI), (MOST 103-2221-E-260-030-).
• 7. Jeng, C.-H.*, 2015, Oct., “Unified Softened Membrane Model for Torsion in Hollow and Solid Reinforced Concrete Members: Modeling Precracking and Postcracking Behavior,” Journal of Structural Engineering, ASCE, Vol. 141, No. 10, pp. 04014243-1~04014243-20 (SCI), (NSC 102-2221-E-260-034-).
• 8. Jeng, C.-H.*, and Chao, M., 2015, Apr., “Unified Rational Formula for Pre-cracking Torsional Stiffness of Solid and Hollow Reinforced Concrete Members,” Engineering Structures, Vol. 99, pp. 92-107 (SCI), (NSC 102-2221-E-260-034-).
• 9. Jeng, C.-H.*, Peng, S.-F., Chiu, H.-J., and Hsiao, C.-K., 2014, Nov.-Dec., “New Torsion Experiment on Large-sized Hollow Reinforced Concrete Beams,” ACI Structural Journal, Vol. 111, No. 6, pp. 1469-1480 (SCI), (NSC 101-2221-E-260-019-).
• 10. Jeng, C.-H.*, Peng, S.-F., and Chao, M., 2014, Jun., “Constitutive Relationships of Concrete for Hollow RC Members in Pure Torsion,” Magazine of Concrete Research, Vol. 66, No. 17, pp. 896-912, (SCI), (NSC 101-2221-E-260-019-).
• 11. Jeng, C.-H.*, Peng, S.-F., and Chiu, H.-J., 2014, Jan., “A New Apparatus and Method for Torsion Test of Large-size Reinforced Concrete Beams,” Journal of Testing and Evaluation, ASTM, Vol. 42, No. 1, pp. 181-195 (SCI), (NSC 100-2221-E-260-022-).
• 12. Jeng, C.-H.*, Chen, J.-R., Lin, T.-C., and Peng, S.-F., 2014, “Seismic Finite Element Simulation of Concrete Piles in Harbor Landing Stages,” Structure and Infrastructure Engineering, Vol. 10, No. 9, pp. 1146-1160, DOI: 10.1080/15732479.2013.793724 (SCI).
• 13. Lin, T.-C., Jeng, C.-H.*, Wang, C.-Y., and Jou, T.-H., 2013, Jul., Discussion Closure, “Repair of Corroded Prestressed Concrete Piles of Harbor Landing Stages,” ACI Structural Journal, Vol. 110, No. 4, pp. 708-708 (SCI).
• 14. Jeng, C.-H.*, Chiu, H.-J., and Peng, S.-F., 2013, May-Jun., “Design Formulas for Cracking Torque and Twist in Hollow Reinforced Concrete Members,” ACI Structural Journal, Vol. 110, No. 3, pp. 457-468 (SCI), (NSC 100-2221-E-260-022-).
• 15. Lin, T.-C., Jeng, C.-H.*, Wang, C.-Y., and Jou, T.-H., 2012, Sept.-Oct., “Repair of Corroded Prestressed Concrete Piles of Harbor Landing Stages,” ACI Structural Journal, Vol. 109, No. 5, pp. 715-725 (SCI).
• 16. Jeng, C.-H.*, Peng, X., and Wong, Y. L., 2011, May, “Strain Gradient Effect in RC Elements Subjected to Torsion,” Magazine of Concrete Research, Vol. 63, No. 5, pp.343-356 (SCI), (NSC 97-2221-E-260-016-).
• 17. Jeng, C.-H.*, 2010, Mar.-Apr., “Simple Rational Formulas for Cracking Torque and Twist of Reinforced Concrete Members,” ACI Structural Journal, Vol. 107, No. 2, pp.189-198 (SCI), (NSC 97-2221-E-260-016-).
• 18. Jeng, C.-H.*, and Hsu, T. T. C., 2009, Sept., “A Softened Membrane Model for Torsion in Reinforced Concrete Members,” Engineering Structures, Vol. 31, No. 9, pp.1944-1954 (SCI), (NSC 95-2221-E-260-038-).
• 19. Jeng, C.-H., and Mo, Y. L., 2004, Oct., “Quick Seismic Response Estimation of Prestressed Concrete Bridges Using Artificial Neural Networks,” Journal of Computing in Civil Engineering, ASCE, Vol. 18, No. 4, pp.360-372 (SCI).
• 20. Mo, Y. L., Jeng, C.-H., and Krawinkler, H., 2003, Feb., “Experimental and Analytical Studies of Innovative Prestress Concrete Box-Girder Bridges,” Materials & Structures, Vol. 36, No. 256 (SCI).
• 21. Mo, Y. L., Jeng, C.-H., and Perng, S. F., 2001, “Seismic Shear Behavior of Rectangular Hollow Bridge Columns,” Structural Engineering and Mechanics, Vol. 12, No.4, pp.429-448 (SCI).
• 22. Mo, Y. L., Jeng, C.-H., and Chang, Y. S., 2000, Nov.-Dec., “Torsional Behavior of Prestressed Concrete Box-Girder Bridges with Corrugated Steel Webs,” ACI Structural Journal, Vol. 97, No. 6, pp.849-859 (SCI).

• 1. 趙鳴, 鄭全桓, 邱浩然, 莊惠群, 呂頌暉, 2018, Nov., 「3D雷射掃描於預力混凝土梁扭力實驗之應用」, 第十四屆結構工程研討會暨第四屆地震工程研討會, 台中.
• 2. Lu, C.-W., Chen, J.-W., Chao, M., and Jeng, C.-H., 2017, Sept., “Field Investigation of Liquefaction-induced Damage due to the 2016 Meinong Earthquake in the Shi-Din Area of Taiwan,” The 19^th International Conference on Soil Mechanics and Geotechnical Engineering, Sept. 17-22, Seoul, Korea.
• 3. Chiu, H.-J., Chao, M., Lu, C.-W., and Jeng, C.-H.*, 2016, Oct.-Nov., “Innovative Entire Bridge Launching for the Construction of A 140 ^m Arch Steel Bridge,” The Fifth International Multi-Conference on Engineering Technology Innovation, Oct. 28-Nov. 1, Taichung, Taiwan.
• 4. 鄭全桓*, 趙鳴, 邱浩然, 楊書帆, 2016, Aug., 「受扭預力混凝土梁開裂行為之實驗研究」, 第十三屆結構工程研討會暨第三屆地震工程研討會. (MOST 104-2622-E-260-002-CC3)
• 5. 陳建宏, 鄭全桓, 簡辰名, 鄧嘉格, 2015, Oct., 21-23 「以行動裝置為基礎的混凝土裂縫量測與網路傳遞機制」, TANET 2015 台灣網際網路研討會論文集, pp. 481-486.
• 6. 鄭全桓*, 彭生富, 邱浩然, 林廷衛, 2014, Aug., 「新型預力混凝土梁扭力實驗簡介」, 第十二屆結構工程研討會暨第二屆地震工程研討會. (NSC 102-2221-E-260-034-)
• 7. 鄭全桓*, 彭生富, 邱浩然, 賴逸倫, 林俊呈, 蔡友仁, 2012, Sept., 「實尺寸中空鋼筋混凝土梁扭力試驗」, 第十一屆結構工程研討會暨第一屆地震工程研討會. (NSC 100-2221-E-260-022-)
• 8. 彭生富*, 鄭全桓, 高元利, 郭芳寶, 陳政谷, 2012, Sept., 「懸索橋施工技術研究」, 第十一屆結構工程研討會暨第一屆地震工程研討會.
• 9. Jeng, C.-H.*, Jou, T.-H., and Lin, T.-C., 2010, Dec., “Finite Element Analysis on Multi-directional Seismic Capacities of Corroded and Repaired PC Piles for Landing Stages,” 4th ACF International Conference, Nov. 28-Dec. 1, Taipei, Taiwan.
• 10. 陳哲昇, 陳昱廷, 邱浩然, 鄭全桓*, 2010, Dec., 「中空鋼筋混凝土桿件扭力分析」, 第十屆結構工程研討會. (NSC 97-2221-E-260-016-)
• 11. 陳哲昇, 陳冠樺, 邱浩然, 鄭全桓*, 2010, Dec., 「預力混凝土桿件扭力分析」, 第十屆結構工程研討會. (NSC 97-2221-E-260-016-)
• 12. Jeng, C.-H.*, Chiu, H.-J., and Chen, C.-S., 2010, May 12-15, “Modeling the Initial Stresses in Prestressed Concrete Members under Torsion,” Structures Congress, Orlando Florida, USA. (NSC 97-2221-E-260-016-)
• 13. Jeng, C.-H.*, and Chen, J.-W., 2008, Nov., “Finite Element Analysis of Corroded and FRP-Repaired PC Piles for Landing Stage Structures,” Proceeding of the 30th Ocean Engineering Conference in Taiwan, Taiwan. (NSC 95-2221-E-260-038-)
• 14. Jeng, C.-H.*, and Chang, C.-M., 2007, Nov. 2-7, “Quantifying the Reduction Factor for Hsu/Zhu Ratio for RC Members under Torsion,” Structural Engineers World Congress (SEWC 2007), Bangalore, India. (NSC 94-2211-E-260-007-)
• 15. 張志明, 鄭全桓*, 2007, Sept., 「適用於力法式有限纖維元素模式之二維彈塑性纖維之開發」, 九十六年電子計算機於土木水利工程應用研討會,台北. (NSC 95-2221-E-260-038-)
• 16. 尹炳業, 張志明, 鄭全桓*, 2006, Sept. 1-3, 「OpenSees 軟體於鋼筋混凝土構件非線分析之應用簡介」, The 8th National Conference on Structure Engineering, Sun Moon Lake, Taiwan.
• 17. Jeng, C.-H.*, Hsu, T. T. C., and Shih, J.-R., 2006, Sept. 1-3, “New Softened Membrane Model for RC Members under Torsion,” The 8th National Conference on Structure Engineering, Sun Moon Lake, Taiwan. (NSC 94-2211-E-260-007-)
• 18. Jeng, C.-H.*, Hsu, C.-C., and Yin, P.-Y., 2005, Nov. 20-22, “New Analytical Method for RC Members under Pure Torsion,” International Symposium on Innovation & Sustainability of Structures in Civil Engineering — Including Seismic Engineering (ISISS'2005), Nanjing, China. (NSC 92-2211-E-260-010-)
• 19. Jeng, C.-H.*, and Lin, T.-C., 2003, Dec. 18-20, “Behavior of Corroded and Repaired PC Piles for Landing Stage Structures,” 8^th International Conference on Inspection, Appraisal, Repairs and Maintenance of Structures, Singapore.
• 20. Jeng, C.-H., Mo, Y. L., and Hsu, T. T. C., 2002, “Seismic Simulation of Prestressed Concrete Bridges,” ACI Convention, Detroit, USA.
• 21. Mo, Y. L., Jeng, C.-H., and Krawinkler, H., 2001, Jul. 29-Aug. 3, “Experimental Study of Prestressed Concrete Box-Girder Bridges with Corrugated Steel Webs,” Proceedings of the International Conference on High Performance Materials in Bridges and Buildings, Kona, Hawaii, USA.
• 22. Jeng, C.-H., Ju, S.-H., Mo, Y. L., and Fang, I.-K., 2000, Sept., “Scaffolding System for Construction of Elevated Water Towers,” ISARC 2000 Conference, Taipei, Taiwan.
• 23. Mo, Y. L., Chang, K. C., and Jeng, C.-H., 2000, April 26-28, “Seismic Performance of Chi-Lu Cable-Stayed Bridge During the 1999 Taiwan Earthquake,” Workshop on Research and Monitoring of Long Span Bridges, Hong Kong.
• 24. Mo, Y. L., and Jeng, C.-H., Mar. 22-24, “Torsional Behavior of Prestressed Concrete Box Bridges with Corrugated Steel Webs,” The 6th. ASCCS International Conference on Steel- Concrete Composite Structures, Los Angeles, USA.
• 25. Mo, Y. L., and Jeng, C.-H., 1999, Aug., “Seismic Shear Behavior of Hollow Bridge Columns,” Proceedings of The First International Conference on Advances in Structural Engineering and Mechanics, pp.1007-1016, Seoul, Korea.
• 26. Jeng, C.-H., and Mo, Y. L., 2000, Feb., “Torsional Behavior of Prestressed Concrete Box Bridges with Corrugated Steel Webs,” 八十八年電子計算機於土木水利工程應用研討會論文集,台中.
• 27. Jeng, C.-H., and Mo, Y. L., 2000, Feb., “An Analytical Model for Structural Behavior of Rectangular Reinforced Concrete Hollow Columns,” 八十八年電子計算機於土木水利工程應用研討會論文集,台中.

專書