참고문헌
- Alvarez, M. (1998), Einfluss des Verbundverhaltens auf das Verformungsvermogen von Stahlbeton (Influence of bond behavior on the deformation capacity of structural concrete, in German), 236, Institute of Structural Engineering, Swiss Federal Institute of Technology, Zurich, Switzerland.
- Alvarez, M. and Marti, P. (1996), Versuche zum Verbundverhalten von Bewehrungsstahl bei plastischen Verformungen (Tests on the bond behavior of reinforcing steel exposed to plastic deformations, in German), 222, Institute of Structural Engineering, Swiss Federal Institute of Technology, Zurich, Switzerland.
- Bachmann, H. (1967), Zur plastizitatstheoretischen Berechnung statisch unbestimmter Stahlbetonbalken (On the plasticity-based analysis of statically indeterminate reinforced concrete girders, in German), 13, Institute of Structural Engineering, Swiss Federal Institute of Technology, Zurich, Switzerland.
- Bruhwiler, E., Vogel, T., Lang, T. and Luchinger, P. (2012), "Swiss standards for existing structures", Struct. Eng. Int., 22(2), 275-280. https://doi.org/10.2749/101686612X13291382991209
- Burns, C. (2011), Serviceability analysis of reinforced concrete based on the tension chord model, PhD thesis no. 19979, Institute of Structural Engineering, Swiss Federal Institute of Technology, Zurich, Switzerland.
- Cosenza, E., Greco, C. and Manfredi, G. (1993), The concept of equivalent steel, Progress Report of Task Group 2.2 'Ductility Requirements for Structural Concrete - Reinforcement, Bulletin d'Information no. 218, Comite Euro-International du Beton (CEB), Lausanne, Switzerland, 163-183.
- Eligehausen, R., Popov, E.P. and Bertero, V.V. (1983), Local bond stress-slip relationships of deformed bars under generalized excitations, UCB/EERC 83/23, Earthquake Engineering Research Center, University of California, Berkley CA, USA.
- Eligehausen, R., Ozbolt, J. and Mayer, U. (1998), Contribution of concrete between cracks at inelastic steel strains and conclusions for the optimization of bond, Leon, R. (ed.), Bond and Development of Reinforcement: a tribute to Dr. Peter Gergely', ACI-International SP-180, 45-80.
- Eligehausen, R. and Mayer, U. (2000), Untersuchungen zum Einfluss der bezogenen Rippenflache von Bewehrungsstaben auf das Tragverhalten von Stahlbetonbauteilen im Gebrauchs- und Bruchzustand (Investigations on the influence of the relative rib area of reinforcing bars on the structural behavior of reinforced concrete members in the serviceability and ultimate limit state, in German), 503, Deutscher Ausschuss fur Stahlbeton, Beuth Berlin, Germany.
- Engstrom, B. (1992), Ductility of tie connections in precast structures, publ. no. 92:1, Division of Concrete Structures, Dept. of Structural Engineering, Chalmers University of Technology, Gothenburg, Sweden.
- fib (2000), Bond mechanisms including pull-out and splitting failures, Bond of reinforcement in concrete - state-of-the-art report, bulletin no. 10, International Federation for Structural Concrete (fib), Lausanne, Switzerland, 1-98.
- Kaufmann, W. and Marti, P. (1998), "Structural concrete: Cracked membrane model", ASCE J. Struct. Eng., 124(12), 1467-1475. https://doi.org/10.1061/(ASCE)0733-9445(1998)124:12(1467)
- Kaufmann, W. (1998), Strength and deformations of structural concrete subjected to in-plane shear and normal forces, 234, Institute of Structural Engineering, Swiss Federal Institute of Technology, Zurich, Switzerland.
- Kenel, A. (2002), Biegetragverhalten und Mindestbewehrung von Stahlbetonbauteilen (Bending behavior and minimum reinforcement of structural concrete elements, in German), 277, Institute of Structural Engineering, Swiss Federal Institute of Technology, Zurich, Switzerland.
- Kreller, H. (1989), Zum nichtlinearen Verformungsverhalten von Stahlbetontragwerken unter Last- und Zwangeinwirkung (On the non-linear behavior of reinforced concrete structures under load and restraint actions, in German), 1989/4, Institute of Construction Materials, University of Stuttgart, Germany.
- Kuuskoski, V. (1950), Uber die Haftung zwischen Beton und Stahl (On the adherence between concrete and steel, in German), 19, Technische Hochschule von Finland (The State Institute for Technical Research), Helsinki, Finland.
- Marti, P., Sigrist, V. and Alvarez, M. (1997), Mindestbewehrung von Betonbauten (Minimum reinforcement of concrete structures, in German), 529, Swiss Federal Highway Administration, Berne, Switzerland.
- Marti, P., Alvarez, M., Kaufmann, W. and Sigrist, V. (1998), "Tension chord model for structural concrete", Struct. Eng. Int., 8(4), 287-298. https://doi.org/10.2749/101686698780488875
- Mayer, U. and Eligehausen, R. (1998), "Bond behavior of ribbed bars at inelastic steel strains", Proc. 2nd Int'l PhD Symp. in Civil Eng., Technical University of Budapest, Hungary, 39-46.
- Mayer, U. (2003), Zum Einfluss der Oberflachengestalt von Rippenstahlen auf das Trag- und Verformungsverhalten von Stahlbetonbauteilen (Influence of the rib pattern of ribbed reinforcement on the structural behavior of reinforced concrete members, in German), 537, Deutscher Ausschuss fur Stahlbeton, Beuth Berlin, Germany.
- Model Code (2010), Model code 2010 - Final draft, Vol. 1, 65, International Federation for Structural Concrete (fib), Lausanne, Switzerland.
- Model Code (1978), CEB-FIP Model code for concrete structures, 3rd edition, Comite Euro-International du Beton, Paris, France.
- Nielsen, M.P. and Hoang, L.C. (2010), Limit analysis and concrete plasticity, 3rd edition, Taylor & Francis.
- Noakowski, P. (1988), Nachweisverfahren fur Verankerung, Verformung, Zwangsbeanspruchung und Rissbreite (Verification procedure for anchorage, deformation, restraint loading and crack width, in German), 394, Deutscher Ausschuss fur Stahlbeton, Beuth Berlin, Germany.
- Rehm, G. (1961), Uber die Grundlagen des Verbunds zwischen Stahl und Beton (On the fundamentals of bond between steel and concrete, in German), 138, Deutscher Ausschuss fur Stahlbeton, Ernst & Sohn Berlin, Germany.
- Sawko, F. and Saha, G.P. (1968), "Fatigue of concrete and its effect upon prestressed concrete beams", Mag. Concrete Res., 20(62), 21-30. https://doi.org/10.1680/macr.1968.20.62.21
- Shima, H., Chou, L.L. and Okamura, H. (1987), "Micro and macro models for bond in reinforced concrete", J. Faculty Eng., 39(2), 133-194.
- SIA 262 (2003), Concrete structures, Swiss Society of Engineers and Architects (SIA), Zurich, Switzerland.
- SIA 269/2 (2011), Existing structures - concrete structures, Swiss Society of Engineers and Architects (SIA), Zurich, Switzerland (currently only available in German and French).
- Sigrist, V. (1995), Zum Verformungsvermogen von Stahlbetontragern (On the deformation capacity of reinforced concrete girders, in German), 210, Institute of Structural Engineering, Swiss Federal Institute of Technology, Zurich, Switzerland.
- Sigrist, V. and Marti, P. (1994), "Ductility of structural concrete: A contribution", Proc. Workshop Development of EN 1992 in Relation to New Research Results and to the CEB-FIP Model Code 1990, Czech Technical University, Prague, Czech Republic, 211-223.
- Zwicky, D. (2013), "Bond and ductility: a theoretical study on the impact of construction details - part 2: structure-specific features", Adv. Concrete Constr., 1(2).
- Zwicky, D. (2012), "Effects of construction details in existing concrete structures on bond", Proc. Bond in Concrete 'Bond, Anchorage, Detailing', 4th Int'l Symp., Brescia, Italy, 23-30.
피인용 문헌
- Bond and ductility: a theoretical study on the impact of construction details - part 2: structure-specific features vol.1, pp.2, 2013, https://doi.org/10.12989/acc.2013.1.2.137
- Seismic damage assessment of multi-story lightweight concrete frame buildings reinforced with glass-fiber rods vol.15, pp.4, 2017, https://doi.org/10.1007/s10518-016-0027-0
- Influence of Anchorage Arrangement on Uplift Resistance of Concrete Columns Reinforced by Circular Steel Tube with Ring Shear Connectors Using Taguchi Method pp.2191-4281, 2019, https://doi.org/10.1007/s13369-018-3442-5
- Numerical study of a new constructive sequence for movable scaffolding system (MSS) application vol.4, pp.3, 2013, https://doi.org/10.12989/acc.2016.4.3.173