题名

臺灣鋼骨鋼筋混凝土構造規範之柱及梁柱接頭設計條文修訂發展

并列篇名

Design Revision of Column and Beam-to-Column Moment Connection in Taiwanese Specification of Steel Reinforced Concrete Structures

DOI

10.6849/SE.202209_37(3).0001

作者

劉郁芳(Yu-Fang Liu);周德光(Te-Kuang Chow);周中哲(Chung-Che Chou);黃司睿(Szu-Jui Huang);陳蓮安(Lien-An Chen)

关键词

鋼骨鋼筋混凝土結構 ; 柱設計 ; 鋼柱寬厚比 ; 梁柱接頭 ; 接頭剪力強度 ; Steel-Reinforced-Concrete (SRC) Structure ; Column ; Width-to-Thickness Ratio ; Beam-to-Column Moment Connection ; Shear Strength of Connection

期刊名称

結構工程

卷期/出版年月

37卷3期(2022 / 09 / 01)

页次

5 - 25

内容语文

繁體中文
中文摘要

本研究收集鋼骨鋼筋混凝土(Steel Reinforced Concrete, SRC)柱及梁柱抗彎接頭最新國外設計規範及研究成果,再與臺灣鋼骨鋼筋混凝土規範及近年之研究進行分析比較,其中在SRC柱設計方面,對於混凝土強度、鋼骨強度、柱主筋間距、鋼柱寬厚比等在考慮研究及工程實務的可行性,提出設計條文建議修訂。另外鋼筋混凝土柱與鋼梁(Reinforced Concrete Steel,RCS)之接頭已被美國及日本規範列為一種抗彎接頭,臺灣規範目前尚未有此種接頭設計方法,但學術界及實務界已有一些相關研究供參考,本研究針對RCS接頭整合美日規範的設計理論,再與國內外研究的成果彙整成RCS接頭剪力設計方法作為規範修訂參考。藉由此次國內外相關規範研究及實驗結果彙整工作,修訂2011年版的鋼骨鋼筋混凝土構造設計規範與解說以期更符合現今國內實務應用及國際技術發展。
英文摘要

The design specifications and literatures related to SRC columns and beam-column connections in the United States, Japan, and Taiwan were collected for the revision of Taiwan Design Specifications and Commentary of Steel-Reinforced-Concrete Structures. The revision recommendation will be expected to be an essential reference for design and construction of SRC structures in Taiwan. Design of Reinforced-Concrete-Column and steel beam connection (called RCS connection) has been included in the design specifications of United States and Japan. However, this connection type has not been included in Taiwan specifications. This work was focused on revision of SRC code in Taiwan. In terms of SRC column design, concrete strength, steel strength, column reinforcement spacing, and column width-to-thickness ratio are revised based on AISC 341 (2016). Integrating the design theories of U.S. and Japan, as well as the research results in Taiwan, a new section of RCS design was recommended to the updated SRC code.
主题分类 工程學 > 工程學總論
工程學 > 土木與建築工程
参考文献
  1. 周中哲,吳松城(2017)。高強度混凝土充填箱型鋼柱於高軸力下之耐震試驗。結構工程,32(1),25-48。
    連結:
  2. 周中哲,陳冠維,林德宏(2020)。箱型鋼柱於不同寬厚比軸力及近斷層地震下的耐震行為與背骨曲線發展。結構工程,35(4),57-75。
    連結:
  3. American Concrete Institute(2014).ACI 318-14 Commentary on Building Code Requirements for Structural Concrete.ACI.
  4. American Concrete Institute(2019).ACI 318-19 Commentary on Building Code Requirements for Structural Concrete.ACI.
  5. American Concrete Institute Committee(1999).ACI 318R-99. Building code requirements for structural concrete and commentary.USA:ACI.
  6. American Institute of Steel Construction=AISC(2016).AISC 341-16. Seismic provisions for structural steel buildings.Chicago, USA:AISC.
  7. American Institute of Steel Construction=AISC(2016).AISC 360-16. Specification for Structural Steel Buildings.Chicago, USA:AISC.
  8. ASCE Task Committee on Design Criteria for Composite Structures in Steel and Concrete(1994).Guidelines for design of joints between steel beams and reinforced concrete columns.Journal of structural engineering,120(8),2330-2357.
  9. Azizinamini, A.,Schneider, S. P.(2004).Moment connections to circular concrete-filled steel tube columns.Journal of structural Engineering,130,213-222.
  10. Chou, C. C.,Chen, G. W.(2020).Lateral cyclic testing and backbone curve development of high-strength steel built-up box columns under axial compression.Engineering Structures,223,11147.
  11. Chou, C. C.,Uang, C. M.(2002).Cyclic performance of a type of steel beam to steel-encased reinforced concrete column moment connection.Journal of constructional steel research,58,637-663.
  12. Chou, C. C.,Wu, S. C.(2019).Cyclic lateral load test and finite element analysis of high-strength concrete-filled steel box columns under high axial compression.Engineering Structures,189,89-99.
  13. Deierlein, G.G.,Sheikh, T.M.,Yura, J.A.(1989).Beam Column Moment Connections for Composite Frames: Part 2.Journal of Structural Engineering, ASCE,115(11),2877-2896.
  14. Elremaily, A.(2000).NE, USA,University of Nebraska-Lincoln.
  15. Kanno, R.,Deierlein, G.G.(1997).Seismic Behavior of Composite(RCS) Beam-Column Joint Subassemblies.Composite Construction III,Reston, VA:
  16. Kathuria, D.,Yoshikawa, H.,Nishimoto, S.,Kawamoto, S.,Deierlein, G.(2015).John A. Blume Earthquake Engineering Center Technical Report SeriesJohn A. Blume Earthquake Engineering Center Technical Report Series,Stanford University.
  17. Koester, B. D.(2000).USA,University of Texas at Austin.
  18. Nishiyama, I.,Hasegawa, T.,Yomanouchi, H.(1990).Building Research Institute ReportBuilding Research Institute Report,Tsukuba, Japan:Ministry of Construction.
  19. Parra-Montesinos, G.,Wight, J. K.(2001).Modeling shear behavior of hybrid RCS beam-column connections.Journal of Structural Engineering,127(1),3-11.
  20. Parra-Montesinos, G.,Wight, J.K.(2000).Seismic Response of Exterior RC Column-to-Steel Beam Connections.Journal of Structural Engineering, ASCE,126(10),1,113-1,121.
  21. Ricles, J. M.,Peng, S. W.,Lu, L. W.(2004).Seismic behavior of composite concrete filled steel tube column-wide flange beam moment connections.Journal of Structural Engineering,130,223-232.
  22. Sheikh, T.M.,Deierlein, G.G.,Yura, J.A.,Jirsa, J.O.(1989).Beam Column Moment Connections for Composite Frames: Part 1.Journal of Structural Engineering, ASCE,115(11),2858-2876.
  23. Varma, A. H.,Ricles, J. M.,Sause, R.,Lu, L. W.(2002).Experimental behavior of high strength square concrete-filled steel tube beam-columns.Journal of Structural Engineering,128(3),309-318.
  24. 內政部營建署(2011),「鋼骨鋼筋混凝土構造設計規範與解說」。
  25. 內政部營建署 (2010),「鋼結構極限設計法規範及解說」,民國九十九年,台北。
  26. 內政部營建署 (2021),「混凝土結構設計規範」,民國一百一十年,台北。
  27. 日本建築學會(2004)。鐵骨鋼筋混凝土構造配筋指針(案)同解説。東京:Architecture Institute of Japan=AIJ。
  28. 日本建築學會(2014)。鐵骨鋼筋混凝土構造配筋指針(案)同解説。東京:Architecture Institute of Japan=AIJ。
  29. 周中哲,劉郁芳,周德光,黃司睿,陳蓮安(2021)。內政部建築研究所期末報告內政部建築研究所期末報告,未出版
  30. 陳正誠(2011)。內政部建築研究所自行研究報告內政部建築研究所自行研究報告,未出版
  31. 陳誠直,林南交,鄭錦銅,蔡克銓(2002)。鋼筋混凝土柱與鋼梁接頭行為。中國土木水利工程學刊,29(3),4-18。
  32. 陶其駿(2016)。內政部建築研究所自行研究報告內政部建築研究所自行研究報告,未出版
  33. 黃國倫(2016)。內政部建築研究所自行研究報告內政部建築研究所自行研究報告,未出版
  34. 劉郁芳,周中哲,曾郡于,孫琛琛(2020)。,國家地震工程研究中心。
  35. 歐昱辰,周中哲,王威儒,賴柏丞(2021)。,國家地震工程研究中心。
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