歡迎各位有志青年加入這個小家庭!!

1. *Chiu, C. K., Wu, C. H., Sung, H. F., Liao, W. I (2021),  "A Smart Sensing Method of Post-Earthquake Damage Quantification for RC Members Using Piezoceramic Transducers",  Automation in Construction,  [SCI],  [EI].
2. *Chiu Chien-Kuo, Liao I-Hsiang, Daniel Santoso and Yamaguchi Eiki (2021),  "Resilience-considered Seismic Risk Assessment and Mitigation of a Retrofitting Method for a Bridge under Multiple Seismic Events",  Journal of Earthquake Engineering,  [SCI],  [EI].
3. *Chiu, C. K., Lays, P. D., Ricky, Krasna, A. W.  (2021),  "Anchorage Strength Development of Headed bars in HSRC External Beam-column Joints Considering Side-face Blowout Failure under Monotonic Loading",  ENGINEERING STRUCTURES,  Volume 239, 15 July 2021, 112218,  [SCI],  [EI].
4. Chiu, C. K., Kao, Y. C., Zhao, Y. G.  (2021),  "Thickness Design of Concrete Cover for Circular RC Piers Considering Two-Dimensional Diffusion Effect of Chloride ions in Concrete",  Structure and Infrastructure Engineering,  17:8, 1046-1061, DOI: 10.1080/15732479.2020.1790014,  [SCI],  [EI].
5. Chiu, C. K., Yamaguchi, E., Kao, Y. C and Santoso, D. (2021),  "Seismic Resilience Analysis of a Retrofit-required Bridge Considering Moment-based System Reliability",  Structure and Infrastructure Engineering,  17:6, 757-778, DOI: 10.1080/15732479.2020.1767658,  [SCI],  [EI].
6. *Chiu, C.K., Nugroho, L., Liao, W. I.  (2020),  "Estimation of Seismic Damage induced by Near- and Far- Fault Earthquakes Using Modified Equivalent Linearization Method of Mid-Rise RC Buildings ",  International Journal of Structural Stability and Dynamics ,  Vol. 20, No. 13, 2041017 (2020),  [SCI],  [EI].
7. *Chiu, C. K., Sung, H. F., Chou, C. H. (2020),  "Quantification of the Reduction Factors of Seismic Capacity for Damaged RC Column Members using the Experiment Database",  Earthquake Engineering and Structural Dynamics,  Volume50, Issue3, March 2021, 756-776,  [SCI],  [EI].
8. *Chiu, C. K, Wu, C. H., Sung, H. F., Liao, W. I., Lin, C. H. (2020),  "Application of Post-Embedded Piezoceramic Sensors for Force Detection on RC Columns under Seismic Loading",  Applied Sciences,  10(15), 5061,  [SCI],  [EI].
9. Chiu, C. K. and IVAN, A. (2020),  "Experimental Investigation on the Force-Crack Quantification Model for HSRC Columns with Flexure-shear and Shear Failure Modes",  International Journal of Concrete Structures and Materials,  14, 30 (2020). https://doi.org/10.1186/s40069-020-00405-0,  [SCI],  [EI].
10. *Chiu, C. K., Nugroho, L., Gautama, S. and Hsiao, F. P.  (2020),  "Reliability-based Constant-damage Ductility Demand Spectra of Mid-rise RC Building Structures Using the Equivalent Linearization Method",  Structure and Infrastructure Engineering,  16:3, 495-516, DOI: 10.1080/15732479.2019.1668437,  [SCI],  [EI].
11. *Chiu, C. K., Liao, W. I. and Ho, C. E. (2019),  "Crack Damage Quantification for Shear-critical HSRC Column Members Using Piezoceramic Transducers",  Engineering Structures,  Volume 201, 15 December 2019, 109777,  [SCI],  [EI].
12. *Liao W. I, Hsiao F. P., *Chiu C. K., Ho, C. E. (2019),  "Structural Health Monitoring and Interface Damage Detection for Infill RC Walls in Seismic Retrofit of RC Frames Using Piezoceramic-Based Transducers Under the Cyclic Loading",  Applied Sciences,  9(2), 312; https://doi.org/10.3390/app9020312 ,  [SCI],  [EI].
13. *Chang, H. Y. and Chiu, C. K. (2019),  "Uncertainty Assessment of Field Weld Connections and the Related Effects on Service Life of Steel Buildings",  Structure and Infrastructure Engineering,  15:10, 1333-1345, DOI: 10.1080/15732479.2019.1621906,  [SCI],  [EI].
14. *Chiu, C. K., Sung, H. F., Chi, K. N., Hsiao, F. P. (2019),  "Experimental Quantification on the Residual Seismic Capacity of Damaged RC Column Members",  International Journal of Concrete Structures and Materials,  13, 17 (2019). https://doi.org/10.1186/s40069-019-0338-z,  [SCI],  [EI].
15. *Chiu, C. K., Liao, W. I., Hartono, A. (2019),  "Study on the Application of Post-Embedded Piezoceramic Transducers for Crack Detection on Earthquake-Damaged RC Columns",  Smart Materials and Structures,  28, 055039,  [SCI],  [EI].
16. *Liao, W. I and Chiu, C. K. (2019),  "Seismic Health Monitoring of a Space RC Frame Structure Using Piezoceramic-based Sensors",  Journal of Aerospace Engineering,  Volume 32 Issue 3 - May 2019,  [SCI],  [EI].
17. Cheng, M. Y., Chiu, Y. F., Chiu, C. K., *Prayogo, D., Wu, Y. W., Hsu, Z. L. and Lin, C. H. (2019),  "Risk-based maintenance strategy for deteriorating bridges using a hybrid computational intelligence technique: a case study",  Structure and Infrastructure Engineering,  15:3, 334-350, DOI: 10.1080/15732479.2018.1547767,  [SCI],  [EI].
18. Kao, Y. C., *Ueda, T., Chiu, C. K. (2018),  "Evaluation of Repair Effect of Patch Repair Materials Containing Fly Ash and Lithium Nitrite",  The Society of Materials Science (Japan),  67(8), 795-802,  [EI].
19. Kao, Y. C., *Chiu, C. K., Ueda, T., Juan, Y. J. (2018),  "Experimental investigation on mechanical properties of SBR -modified cement mortars with fly ash for patch repair material",  Journal of Advanced Concrete Technology,  16, 382-395,  [SCI],  [EI].
20. Chi, K. N., *Chiu, C. K.,. and Lin, K. C. (2018),  "Study on Straight Development Length of Tensile Threaded Bars in High-strength Reinforced Concrete Members",  Construction & Building Materials,  180, 661-674. ,  [SCI].  [LINK]
21. *Chiu, C. K., Chi, K. N. and Ho, B. T. (2018),  "Experimental Investigation on Flexural Crack Control for High-strength Reinforced-concrete Beam Members",  International Journal of Concrete Structures and Materials (IJCS),  (2018) 12: 41. https://doi.org/10.1186/s40069-018-0253-8 ,  [SCI].
22. *Chiu, C. K., Liao, I. H. and Jean, W. Y. (2018),  "Seismic design requirements for reinforced concrete piers considering aftershock-induced seismic hazard",  Structure and Infrastructure Engineering,  14(9), 1244-1256,  [SCI].
23. *Chiu, C. K. and Arista, C. P. (2017),  "Serviceability-related Reliability for Mainshock-Damaged Reinforced Concrete Piers Considering the Aftershock-induced Seismic Hazards",  Natural Hazards,  87(3), 1333–1359 ,  [SCI].
24. Kao, Y. C., *Ueda, T., Chiu, C. K. (2017),  "Evaluation of Steel Corrosion in Fly Ash Concrete Containing Chlorides Using Electrochemical Indexes",  Journal of the Society of Materials Science (Japan),  66(8), 566-573,  [EI].
25. *Chiu, C. K., Chi, K. N. and Lin, K. C. (2016),  "Experimental Investigation on the Seismic Anchorage Behavior of Headed Bars based on Full-size Specimens of Exterior and Interior Beam-Column Joints",  ADVANCES IN STRUCTURAL ENGINEERING,  19(5), 777-794,  [SCI],  [EI].
26. *Chiu, C. K., Ueda, T., Chi, K. N. and Chen, S. Q. (2016),  "Shear Crack Control for High Strength Reinforced Concrete Beams Considering the Effect of Shear-Span to Depth Ratio of Member",  International Journal of Concrete Structures and Materials,  10(4), 407-424,  [SCI].
27. *Chiu, C. K., Tu, F. J. and Chuang, Y. T. (2016),  "Reliability-Based Design for Concrete-Cover Thickness Considering the Hazard of Corrosion of Reinforcing Steel Bars: Coastal Regions in Taiwan.",  Structure and Infrastructure Engineering,  12(2), 143-158,  [SCI].
28. *Chiu, C. K., Hsiao, F. P. and Tu, F. J. (2015),  "Lifetime Seismic Performance Assessment for Chloride-corroded Reinforced Concrete Buildings",  Structure and Infrastructure Engineering,  11(3), 345-362,  [SCI].
29. *Chiu, C. K., Sihotang F. M. F. and Hao, D. (2015),  "Crack-based Damage Assessment Method for HSRC Shear-critical Beams and Columns",  Advances in Structural Engineering,  18(1), 119-135.
30. *Chiu, C. K., Lyu, Y. C. and Jean, W. Y. (2014),  "Probability-based Damage Assessment for Reinforced Concrete Bridges Considering the Corrosive and Seismic Hazards in Taiwan",  Natural Hazards,  71(3), 2143-2164,  [SCI].
31. *Chiu, C. K. (2014),  "Reliability-based Service Life Assessment for Deteriorating Reinforced Concrete Buildings Considering the Effect of Cumulative Damage",  Structure and Infrastructure Engineering,  10(9), 1101-1118,  [SCI].
32. *Chiu, C. K. and Lin, Y. F. (2014),  "Multi-objective Decision-making Supporting System of Maintenance Strategies for Deteriorating Reinforced Concrete Buildings",  Automation in Construction,  39(1), 15-31,  [SCI].
33. *Chiu, C. K., Chi, K. N. and Lin, F. C. (2014),  "Experimental Investigation on the Shear Crack Development of Shear-Critical High-Strength Reinforced Concrete Beams",  Journal of Advanced Concrete Technology,  12, 223-238,  [SCI].
34. *Chiu, C. K., Tu, F. J. and Fan, C. Y. 2014 (2014),  "Risk Assessment of Environmental Corrosion for Reinforcing Steel Bars Embedded in Concrete in Taiwan",  Natural Hazards,  75(1), 581-611,  [SCI].
35. *Chiu, C. K., Chen, M. R. and Chiu, C. H. (2013),  " Financial and Environmental Payback Periods of Seismic Retrofit Investments for Reinforced Concrete Buildings Estimated using a Novel Method",  Journal of Architectural Engineering (ASCE),  19(2), 112-118,  [EI].
36. *Chiu, C. K., Jean, W. Y. and Chuang, Y. T. (2013),  "Optimal Design Base Shear Forces for Reinforced Concrete Buildings Considering Seismic Reliability and Life-cycle Costs",  Journal of the Chinese Institute of Engineers,  36(4), 458-470(Best paper awards 2013),  [SCI].
37. *Chiu, C. K. and Chi, K. N. (2013),  "Analysis of Lifetime Losses of Low-Rise Reinforced Concrete Buildings Attacked by Corrosion and Earthquakes Using a Novel Method",  Structure and Infrastructure Engineering,  9(12), 1225-1239,  [SCI].
38. *Chiu, C. K. , Hsiao, F. P. and Jean, W. Y. (2013),  "A Novel Lifetime Cost-Benefit Analysis Method for Seismic Retrofitting of Low-rise Reinforced Concrete Buildings",  Structure and Infrastructure Engineering,  9(9), 891-902,  [SCI].
39. *Chou, J. S., *Chiu, C. K., Hung, I. K., Chi, K. N. (2013),  "Failure Analysis of Wind Turbine Blade under Critical Wind Loads",  Engineering Failure Analysis,  27, 99-118,  [SCI].
40. *Chiu, C. K. and Jean, W. Y. (2013),  "Seismic Reliability Analysis of Reinforced Concrete Framed Buildings Deteriorated by Chloride Ingress",  Int. J. Structural Engineering,  4(1/2), 113-127(Selected paper),  [EI].
41. *Chiu, C. K. and Chang, H. Y. (2013),  "A Risk-based Approach to Determine the Optimal Service Life of Steel Buildings in Seismically Active Zones",  Applied Mechanics and Materials,  284-287, 1446-1449,  [EI].
42. *Chiu, C. K., Chi, K. N. and Lin, K. C. (2013),  "Strength Performance of T-Headed Rebar in Concrete",  Applied Mechanics and Materials,  284-287, 1401-1408,  [EI].
43. *Chiu, C. K., Jean, W. Y. and Noguchi, T. (2012),  "Risk-Based Life-cycle Maintenance Strategies for Corroded RC Buildings Located in the Region with High Seismic Hazard ",  Structure and Infrastructure Engineering,  8(12), 1108-1122,  [SCI].
44. *Chou, J. S., Chiu, C. K., Farfoura, M., and AL-Taharwa, I. (2011),  "Optimizing the Prediction Accuracy of Concrete Compressive Strength Based on a Comparison of Data Mining Techniques",  Journal of Computing in Civil Engineering (ASCE),  25(3), 242-253,  [SCI].
45. *Chiu, C. K. and Jean, W. Y. 2011 (2011),  "Evaluating Procedure of Optimal Seismic Retrofit Level for a Low-Rise RC Building ",  Journal of Advanced Concrete Technology,  9(3), 287-299,  [SCI].
46. *Chiu, C. K., Noguchi, T. and Kanematsu, M. (2010),  "Effects of Maintenance Strategies on the Life-cycle Performance and Cost of a Deteriorating RC Building with High-Seismic Hazard ",  Journal of Advanced Concrete Technology,  8(2), 157-170,  [SCI].
47. *邱建國, 陳正誠, 陳敏祐 (2018),  "考慮塗裝系統更新週期影響之鋼構橋梁生命週期成本評估方法建構 ",  結構工程,  33卷4期 (2018/12/01)，63 - 90.
48. *邱建國, 陳少謙, 何柏霆, 紀凱甯  (2018),  "高強度鋼筋混凝土梁之撓曲裂縫控制設計",  中國土木水利工程學刊,  Accepted, In press.,  [EI].
49. *紀凱寗, 林克強, 邱建國 (2018),  "螺紋節鋼筋直線伸展握裹研究",  中國土木水利工程學刊,  Accepted, In press.,  [EI].
50. ＊邱建國、宋裕祺、劉光晏、程瑞忠、陳柏湧 (2017),  "考慮系統功能影響之橋梁補強工程效益研究",  中國土木水利工程學刊,  29(4), 211-225, DOI： 10.6652/JoCICHE.201712_29(4).0001,  [EI].
51. 林克強、*邱建國、紀凱甯 (2016),  "使用擴頭鋼筋之外柱梁柱接合耐震性能",  結構工程,  第三十一卷，第二期，25-53，臺灣。.
52. *邱建國、曾姿燕 (2016),  "建築資訊模型於RC建築物耐久性能診斷與維護管理階段之應用",  建築學報,  第九十五卷(技術增刊)，13-34，臺灣。(TSSCI).
53. *邱建國、楊國鑫、陳道平、蔡長銘、邱子熙 (2015),  "臺北市企業自主型防災工作推動機制研究",  災害防救科技與管理學刊,  第四卷，第一期，49-75，臺灣。(104年度最佳論文獎).
54. *邱建國、林芳慶、陳少謙、紀凱甯 (2015),  "考慮構件剪力跨深比影響之高強度鋼筋混凝土梁剪力裂縫控制",  結構工程,  第三十卷，第三期，5-26，臺灣。.
55. 鄭元良、*邱建國、陳建忠、陳君弢、周楷俊、陳美儒、陳重利、曾姿燕 (2015),  "鋼筋混凝土建築物耐久性能診斷方法研擬",  建築學報,  第九十一卷，39-61，臺灣。(TSSCI).
56. *邱建國、林宜鋒 (2014),  "劣化鋼筋混凝土建築物生命週期維護管理決策支援系統",  建築學報，第八十八卷，pp.1–18，臺灣.
57. *邱建國、林宜鋒 (2014),  "劣化鋼筋混凝土建築物生命週期地震風險評估研究",  建築學報，第八十七卷，pp.67–81，臺灣.
58. 鄭明淵、邱建國、邱永芳、*吳育偉、徐梓隆、吳宏興、林正軒 (2014),  "創新生物共生演算法(SOS)在橋梁生命週期風險評估與維護策略之研究",  中國土木水利工程學刊,  第二十六卷，第四期，293-308，臺灣。(年度論文獎) (EI),  [EI].
59. 鄭明淵、邱永芳、*吳育偉、歐昱辰、邱建國、廖國偉、范鴻達 (2014),  "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，第二十五卷，第三期，193–209，臺灣(年度論文獎),  [EI].
60. *劉光晏、宋裕祺、張國鎮、邱建國、林冠禎、陳崇慶 (2014),  "高強度鋼筋混凝土構架式橋墩耐震行為實驗與預測之研究",  中國土木水利工程學刊,  第二十六卷，第四期，271-280，臺灣。(EI),  [EI].
61. *邱建國、陳崇慶、林芳慶、紀凱寗 (2014),  "實尺寸高強度鋼筋混凝土梁之剪力裂縫行為研究",  結構工程,  第二十九卷，第四期，19-43，臺灣。.
62. *邱建國、蕭輔沛、涂豐鈞 (2013),  "考慮鹽害腐蝕影響之鋼筋混凝土校舍耐震能力評估研究",  結構工程，第二十八卷，第一期，pp.43–60，臺灣.
63. 周瑞生、*邱建國、紀凱甯、黃一桂 (2013),  "風力發電機葉片結構受颱風侵襲之表面開裂機制與災因探討",  結構工程，第二十八卷，第二期，pp.101–123，臺灣.
64. *蕭輔沛、邱建國，涂豐鈞 (2013),  "考慮震損影響下低矮型鋼筋混凝土建築物之耐震能力詳細評估",  結構工程，第二十八卷，第三期，pp.37–53，臺灣.
65. *邱建國、涂豐鈞 (2013),  "考慮鋼筋腐蝕危害度之混凝土保護層厚度設計",  建築學報，第八十六卷，pp.89–105，臺灣.
66. *邱建國、王儒祥 (2012),  "鋼筋混凝土建築物耐震修復性能評估方法與應用",  建築學報，第八十卷，pp.45–62，臺灣.
67. *邱建國、簡文郁 (2010),  "鋼筋混凝土構架建築物於塩害環境下之耐震可靠度分析",  建築學報，第七十三卷，pp.51–68，臺灣.
68. Chiu, C. K. and *Chang, H. Y. (2012),  "Seismic Risk Assessment for Steel Framed Buildings",  Journal of the Chinese Institute of Engineers,  35(4), 449-460,  [SCI].
69. *Chang, H. Y. and Chiu, C. K. (2011),  "Performance Assessment of Buckling Restrained Braces ",  Procedia Engineering,  14, 2187-2195,  [EI].

1. 林克強, *邱建國, 紀凱寗 (2014),  "擴頭鋼筋於梁柱接頭之應用與設計",  土木水利, 第41卷, 第2期. (鋼筋混凝土新技術發展專刊).
2. 中華民國結構工程學會鋼筋混凝土委員會委員 (2014),  "房屋結構鋼筋施工綱要與品管",  中華民國結構工程學會, 科技圖書出版, 民國102年12月,  (本人為編審小組成員, 亦負責第六章之撰稿).