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      KCI등재 SCIE SCOPUS

      Investigating the negative tension stiffening effect of reinforced concrete

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      https://www.riss.kr/link?id=A104818985

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      다국어 초록 (Multilingual Abstract)

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      The behaviour of a reinforced concrete tension member is governed by the contribution of concrete between cracks, tension stiffening effect. Under highly repeated loading, this contribution is progressively reduced and the member response approximates that given by the fully cracked member. When focusing on the unloaded state, experiments show deformations larger than those of the naked reinforcement. This has been referred to as negative tension stiffening and is due to the fact that concrete carries compressive stresses along the crack spacing, even thought the tie is subjected to an external tensile force. In this paper a cycle-dependent approach is presented to reproduce the behaviour of the axially loaded tension member, paying attention to the negative tension stiffening contribution. The interaction of cyclic bond degradation and time-dependent effects of concrete is investigated. Finally, some practical diagrams are given to account for the negative tension stiffening effect in reinforced concrete elements.
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      The behaviour of a reinforced concrete tension member is governed by the contribution of concrete between cracks, tension stiffening effect. Under highly repeated loading, this contribution is progressively reduced and the member response approximates...

      The behaviour of a reinforced concrete tension member is governed by the contribution of concrete between cracks, tension stiffening effect. Under highly repeated loading, this contribution is progressively reduced and the member response approximates that given by the fully cracked member. When focusing on the unloaded state, experiments show deformations larger than those of the naked reinforcement. This has been referred to as negative tension stiffening and is due to the fact that concrete carries compressive stresses along the crack spacing, even thought the tie is subjected to an external tensile force. In this paper a cycle-dependent approach is presented to reproduce the behaviour of the axially loaded tension member, paying attention to the negative tension stiffening contribution. The interaction of cyclic bond degradation and time-dependent effects of concrete is investigated. Finally, some practical diagrams are given to account for the negative tension stiffening effect in reinforced concrete elements.

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      참고문헌 (Reference)

      1 König, G, "Zur Rissbreitenbeschränkung im Stahlbetonbau" 6 : 161-204, 1988

      2 Kreller,H, "Zum nichtlinearen Trag- und Verformungsverhalten von Stahlbetonstabtragwerken unter Lastund Zwangeinwirkung, Deutscher Ausschuss für Stahlbeton. Heft 409"

      3 Sippel,T, "Zum Trag- und Verformungsverhalten von Stahlbetontragwerken unter Betriebsbelastung" Technische Universität Stuttgart 1996

      4 Blaschke, F, "Verbundverhalten zwischen Stahl und Beton unter schwellender Belastung im Gebrauchslastbereich" 90 (90): 77-79, 1995

      5 Cornelissen, H.A.W, "Uniaxial tensile fatigue failure of concrete under constant amplitude and programme loading" 36 (36): 219-226, 1984

      6 Vecchio, F.V, "The modified compression-field theory for reinforced concrete elements subjected to shear" 83 (83): 219-231, 1986

      7 Günther, G, "Tension-stiffening, crack spacings, crack widths and bond-slip" Protection of Concrete 589-600, 1990

      8 Gilbert,I.R, "Tension stiffening in lightly reinforced concrete slabs" ASCE 133 (133): 899-903, 2007

      9 Fields, K, "Tension stiffening and cracking of high-strength reinforced concrete tension members" 101 (101): 447-456, 2004

      10 Marti, P., "Tension chord model for structural concrete" 8 (8): 287-298, 1998

      1 König, G, "Zur Rissbreitenbeschränkung im Stahlbetonbau" 6 : 161-204, 1988

      2 Kreller,H, "Zum nichtlinearen Trag- und Verformungsverhalten von Stahlbetonstabtragwerken unter Lastund Zwangeinwirkung, Deutscher Ausschuss für Stahlbeton. Heft 409"

      3 Sippel,T, "Zum Trag- und Verformungsverhalten von Stahlbetontragwerken unter Betriebsbelastung" Technische Universität Stuttgart 1996

      4 Blaschke, F, "Verbundverhalten zwischen Stahl und Beton unter schwellender Belastung im Gebrauchslastbereich" 90 (90): 77-79, 1995

      5 Cornelissen, H.A.W, "Uniaxial tensile fatigue failure of concrete under constant amplitude and programme loading" 36 (36): 219-226, 1984

      6 Vecchio, F.V, "The modified compression-field theory for reinforced concrete elements subjected to shear" 83 (83): 219-231, 1986

      7 Günther, G, "Tension-stiffening, crack spacings, crack widths and bond-slip" Protection of Concrete 589-600, 1990

      8 Gilbert,I.R, "Tension stiffening in lightly reinforced concrete slabs" ASCE 133 (133): 899-903, 2007

      9 Fields, K, "Tension stiffening and cracking of high-strength reinforced concrete tension members" 101 (101): 447-456, 2004

      10 Marti, P., "Tension chord model for structural concrete" 8 (8): 287-298, 1998

      11 Kaklauskas, G, "Stress-strain relations for cracked tensile concrete from RC beam tests" 127 (127): 64-73, 2001

      12 Oh, B.H, "Realistic models for local bond stress-slip of reinforced concrete under repeated loading" ASCE 133 (133): 216-224, 2007

      13 Yankelevsky, D.Z, "One-dimensional analysis of tension stiffening in reinforced concrete with discrete cracks" 30 (30): 206-217, 2008

      14 Beeby, A.W, "Mechanisms of long-term decay of tension stiffening" 58 (58): 255-266, 2006

      15 Morita, S, "Local bond-stress relationship under repeated loading" 221-226, 1973

      16 Balazs,G.L, "Fatigue of bond" 88 (88): 620-629, 1991

      17 Fernández Ruiz, M, "Evaluación no lineal de los efectos estructurales producidos por las deformaciones diferidas del hormigón y el acero" Universidad Politécnica de Madrid 2003

      18 CEN, "Eurocode EC-2.prEN 1992-1-1:2004,Brussels"

      19 Bischoff,P.H, "Effects of shrinkage on tension stiffening and cracking in reinforced concrete" 282 : 363-374, 2001

      20 Vecchio,F.J, "Disturbed stress field model for reinforced concrete: formulation" ASCE 126 (126): 1070-1077, 2000

      21 Balazs,G.L, "Cracking analysis based on slip and bond stresses" 90 (90): 340-348, 1993

      22 Chan, H.C., "Crack analysis of reinforced concrete tension members" ASCE 118 (118): 2118-2132, 1992

      23 Muttoni, A, "Concrete cracking in tension members and application to deck slabs of bridges" ASCE 12 (12): 646-653, 2007

      24 Gómez Navarro, M, "Concrete cracking in composite bridges: tests, models and design proposals" 11 (11): 184-190, 2001

      25 Ghali, A, "Concrete Structures: Stresses and Deformations" E & FN SPON Editions 1994

      26 CEB - FIP, "CEB - FIP Model Code" Lausanne 1990

      27 Pochanart, S, "Bond-slip model for generalized excitations including fatigue" 86 (86): 465-474, 1989

      28 Plaines, P, "Bond relaxation and bond-slip creep under monotonic and cyclic actions" 193-204, 1982

      29 Rehm, G, "Bond of ribbed bars under high cycle repeated loads" 76 (76): 297-309, 1979

      30 FIB, "Bond of Reinforcement in Concrete. State of the Art Report" federation internationale du beton 2000

      31 Tassios, T.P, "Analytical studies on reinforced concrete members under cyclic loading based on bond stress slip relations" 78 (78): 206-216, 1981

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