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References
Models TGB (2000) Bond of reinforcement in concrete, CEB-fib, fib Bulletin No. 10, Lausanne, p 427
RILEM: Technical recommendations for the testing and use of construction materials: RC6, bond test for reinforcing steel: 2. pull-out test. Mater. Struct. 3(15), 175–178 (1970)
Menezes de Almeida Filho, F., El Debs, M.K., Lucia, A., El Debs, H.C.: Bond-slip behavior of self-compacting concrete and vibrated concrete using pull-out and beam tests. Mater. Struct. 41, 1073–1089 (2008)
Foroughi-Asl, A., Dilmaghani, S., Famili, H.: Bond strength of reinforcement steel in self-compacting concrete. Int. J. Civ. Eng. 6(1), 24–33 (2008)
Zhu, W., Sonebi, M., Bartos, P.J.M.: Bond and interfacial properties of reinforce-ment in self-compacting concrete. Mater. Struct. 37, 442–448 (2004)
Looney, T.J., Arezoumandi, M., Volz, J.S., Myers, J.J.: An experimental study on bond strength of reinforcing steel in self-consolidating concrete. Int. J. Concr. Struct. Mater. 6(3), 187–197 (2012)
Desnerck, P., De Schutter, G., Taerwe, L.: Bond behaviour of reinforcing bars in self-compacting concrete: experimental determination by using beam tests. RILEM Mater. Struct. 43, 53–62 (2010)
RILEM: Technical recommendations for the testing and use of construction materials: RC6, bond test for reinforcing steel: 1. beam test. Mater. Struct. 3(15), 169–174 (1970)
Castel, A., Vidal, T., Viriyametanont, K., Raoul, F.: Effect of reinforcing bar orientation and location on bond with self-consolidating concrete. ACI Struct. J. 103(4), 559–567 (2006)
Ertzibengoa, D., Matthys, S., Taerwe, L.: Bond behaviour of flat stainless steel re-bars in concrete. Mater. Struct. 45, 1639–1653 (2012)
Pandurangan, K., Kothandaraman, S., Sreedaran, D.: A study on the bond strength of tension lap splices in self-compacting concrete. Mater. Struct. 43, 1113–1121 (2010)
Dehn, F., Hoalschemacher, K., Weibe, D.: Self-compacting concrete (SCC) time development of the material properties and the bond behavior, Selbstverdichtendem Beton (2000)
Brameshuber, W., Stephan, V., Christian, T.: Self compacting concrete in the pre-cast element plant. BFT 1, 80–88 (2001)
Sonebi, M., Bartos, P.J.M., Zhu, W., Gibbs, J., Tamimi, A.: Properties of hardened concrete. BriteEuRam Contract No. BRPR-CT96-0366, Task 4 May, p. 51. (2000)
Helincks, P., Boel, V., De Corte, W., De Schutter, G., Desnerck, P.: Structural behaviour of powder-type self-compacting convcrete: bond performance and shear capacity. Eng. Struct. 48, 121–132 (2013)
Chan, Y., Chen, Y., Liu, Y.: Development of bond strength of reinforcement steel in self-consolidating concrete. ACI Struct. J. 100(4), 490–498 (2003)
Holschemacher, K., Klug, Y.: A database for the evaluation of hardened properties of SCC. Leipzig annual civil engineering report No. 7, pp. 123–134. Universität Leipzig (2002)
Sonebi, M., Cleland, D., Anuar, I.: Bond strength between reinforcement and self-compacting concrete. In: Cairns, J.W., Metelli, G., Plizzari, GA. (eds.) Proceedings of 4th Symposium on Bond in Concrete: Bond, An-Chorage, Detailing, vol. 1, pp. 267–272. Brescia, 17–20 June 2012
Ashtiani, M.S., Dhakal, R.P., Scott, A.: Post-yield bond behaviour of deformed bars in high-strength self-compacting concrete. Constr Build Mater 44, 236–248 (2013)
Zheng, JL, Zhuang, JP: Experiment research on bond properties between self-compacting concrete and reinforcement. Gongcheng Lixue/Eng. Mech. 30(2), 112–117 (2013)
Surong L, Jinping Z, Yi W: Experimental study of bond stress distribution between re-inforcement and different strength self-compacting concrete bond under dynamic load. Adv. Mater. Res. 446–449, 330–333 (2012) (ISSN:1022-6680)
Cairns J.W., Metelli M., Plizzari G.A. (eds.) Proceeding of the Fourth International Symposium on Bond in Concrete, Brescia, June 2012
Khayat, K.H., Petrov, N., Attiogbe, E.K., See, H.T.: Uniformity of bond strength of prestressing strands in conventional flowable and self-consolidating concrete mixtures. In: Wallevik O. (ed.) Proceedings, 3rd International Symposium on Self-Compacting Concrete, pp. 703–712. Reykjavik, Aug 2003
Attiogbe, E., Nmai, C.: Engineering properties of self-consolidating concrete for high performance concrete. Proceedings, High Performance Concrete Symposium and Bridge Conference, 49th PCI Annual Convention and Exhibition, Orlando (2003)
Martí-Vargas, J.R.,Serna-Ros, P., Arbeláez, C.A., Rigueira-Víctor, J.W.: Transfer and anchorage bond behavior in self-compacting concrete. Materiales de Construcción 56(284), 27–42 (2006)
Martí-Vargas, J.R.: Experimental study on bond of prestressing strand in high-strength concrete. Ph.D. Thesis, (in Spanish), UMI Dissertation Services, ISBN 0-493-55092-5 (2002)
Martí-Vargas, J.R., Serna-Ros, P., Fernández-Prada, M.A., Miguel-Sosa, P.F., Arbeláez, C.A.: Test method for determination of the transmission and anchorage lengths in prestressed reinforcement. Mag. Concr. Res. 58(1), 21–29 (2006)
Attiogbe, E., See, H., Daczko, J.: Engineering properties of self-consolidating con-crete. In: Proceedings, 1st North American Conference on the design and use of Self-Consolidating Concrete, Center for advanced Cement-Based Materials, Nov 2002
Valcuende, M., Parra, C.: Bond behaviour of reinforcement in self-compacting concretes. Constr. Build. Mater. 23, 162–170 (2009)
Esfahani, M.R., Esfahani, M.R.: Lachemi, and M., Kianoush, M.R., “Top-bar effect of steel bars in self-consolidating concrete (SCC)”. Cement Concr. Compos. 30, 52–60 (2008)
Valcuende, M., Parra, C., Balasch, B.S.:Cement and Concrete Composites. In: Esfahani M.R., Lachemi M., Kianoush M.R (eds.) A Discussion of the Paper ‘‘Top-Bar Effect of Steel Bars in Self-Consolidating Concrete (SCC)”, vol. 30, p. 1020 (2008)
Hossain, K.M.A., Lachemi, M.: Bond behavior of self-consolidating concrete with mineral and chemical admixtures. ASCE J. Mater. Civ. Eng. 20, 608–616 (2008)
Hassan, A.A.A., Hossain, K.M.A., Lachemi, M.: Bond strength of deformed bars in large reinforced concrete members cast with industrial self-consolidating concrete mixture. Constr. Build. Mater. 24, 520–530 (2010)
Soylev, T.A., Raoul, F.: Effects of bar-placement conditions on steel-concrete bond. Mater. Struct. 39, 211–220 (2006)
Eurocode 2: Design of concrete structures—Part 1: general rules and rules for buildings, p. 222 (2001)
ACI 318: Building code requirements for structural concrete (ACI 318-02) and commentary (ACI 318R-02), ACI Committee 318 Structural Building Code, American Concrete Institute, p. 445 (2002)
Desnerck, P.: Compressive, bond and shear behaviour of powder-type self-compacting concrete. Ph.D. Thesis, Universiteit Gent, p. 343 (2011)
Khayat, K.H., Manai, K., Trudel, A.: In-situ mechanical properties of wall elements cast using self-consolidating concrete. ACI Mater. J. 94(6), 491–500 (1997)
Khayat, K.H.: Use of viscosity-modifying admixture to reduce top-bar effect of anchored bars cast with fluid concrete. ACI Mater. J. 95(2), 158–167 (1998)
Khayat, K.H.: Viscosity-enhancing admixtures for cement-based materials—an over-view. Cem. Concr. Compos. 20(2–3), 171–188 (1998)
Petrov, N., Khayat, K.H., Tagnit-Hamou, A.: Influence of additions of viscosity-enhancing admixture on homogeneity of self-consolidating concrete (in French). In: Progress in Concrete, ACI Québec and Eastern Ontario Chapter Annual Meeting, Montréal, p. 8, Nov 1999
Khayat, K.H., Pavate, T., Jolicoeur, C., Vanhove, Y.: Conductivity approach to evaluate stability of fresh concrete, SCC 2005. In: Shah S.P. (ed.) Proceedings 2nd North American Conference on the Design and Use of Self-Consolidating Concrete and the 4th International RILEM Symposium on Self-Compacting Concrete, Evanston, pp. 831–838 (2005)
Assaad, J., Khayat, K.H., Daczko, J.: Evaluation of static stability of self-consolidating concrete. ACI Mater. J. 101(3), 207–215 (2004)
Khayat, K.H., Attiogbe, E., See. H.: Effect of admixture combination on top-bar effect in highly flowable and self-consolidating concrete. ACI-SP247 (Publication No 247-4), p. 15 (2007)
Jirsa, J.O., Breen, J.E.: Influence of casting position and shear on development and splice length—design recommendations. Research report 242-3F, Center for transportation research, University of Texas, p. 42, Nov 1981
Khayat, K.H., Petrov, N., Attiogbe, E., See, H.: Homogeneity of bond strength of along wall elements cast with flowable and self-consolidating concrete. In: Wallevik O. (ed.) RILEM Proceedings 33, 3rd International Symposium on Self-Compacting Concrete, Reykjavik, pp. 703–712, Aug 2003
Long, W.J., Lemieux, G., Khayat, K.H., Xing, F.: Uniformity of bond strength of prestressing strands in precast prestressed self-compacting concrete mixtures. In: Proceedings 11th International Symposium on Structural Engineering, Guangzhou, pp. 569–574 (2010)
Khayat, K.H., Mitchell, D.: NCHRP report 628; Self-consolidating concrete for pre-cast, prestressed concrete bridge elements (2009)
Hwang, S.-D., Khayat, H.K., Bonneau, O.: Performance-based specifications of self-consolidating concrete used in structural applications. ACI Mater. J. 92(6), 625–633 (2006)
Karatas, M., Turk, K., Ulucan, Z.C.: Investigation of bond between lap-spliced steel bar and self-compacting concrete: the role of silica fume. Can. J. Civ. Eng. 37, 420–428 (2010)
Turk, K., Karatas, M., Ulucan, Z.C.: Effect of the use of different types and dosages of mineral additions on the bond strength of lap-spliced bars in self-compacting concrete. Mater. Struct. 43, 557–570 (2010)
De Almeida, F., De Nardin, F.M., El Debs, S.: Evaluation of the bond strength of self-compacting concrete in pull-out tests. In: Proceedings 2nd North American Conference on the Design and Use of Self-Consolidating Concrete and 4th International RILEM Symposium on Self-Compacting Concrete, Chicago (2005)
CEB/FIP: CEB/fib Model Code 1990—design code; CEB/FIP, p. 437 (1993)
Daoud A., Lorrain M., Laborderie C.: Anchorage and cracking behaviour of self-compacting concrete. In: Proceedings 3rd RILEM International Symposium on Self-Compacting Concrete, Reykjavik (2003)
Said, H., Mouli, M., Mesbah, A.M., Khelafi, H.: Influence du type d’addition dans les bétons autoplaçants sur l’adhérence béton-ancrage. In: Proceedings 1st International Conference on sustainable Built Environment Infrastructures in Developing Countries, ENSET Oran, Algeria (2009)
Erzibengoa Gaztelumendi, D., Matthys, S., Taerwe, L.: Bond interaction between flat stainless steel rebars and traditional and self-compacting concrete. In: Cairns J.W., Metelli G., Plizzari (eds.) Proceedings of Bond in Concrete, pp. 885–892 (2012)
Aslani, F., Nejadi, S: Bond behavior of reinforcement in conventional and self-compacting concrete. Adv. Struct. Eng.15(12), 2033–2051 (2012)
Roussel, N., Cussigh, F.: Distinct-layer casting of SCC: the mechanical consequences of thixotropy. Cem. Concr. Res. 38, 624–632 (2008)
Roussel, N.: A thixotropic model for fresh fluid concretes: theory and applications. In: Proceedings 5th International RILEM Symposium on Self-Compacting Concrete, Ghent, pp. 267–272 (2007)
Khayat, K.H., Omran, A.F., Al Magdi, W.: Evaluation of thixotropy of self-consolidating concrete and influence on concrete performance. In: Proceedings 3rd Iberian Congress on Self Compacting Concrete, Madrid, pp. 3–16 (2012)
Abd El Megid, W.: Effect of rheology on surface quality and performance of SCC. Ph.D. Dissertation, University of Sherbrooke (2012)
Omran, A.F., Naji, S., Khayat, K.H.: Portable vane test to assess structural build-up at rest of self-consolidating concrete. ACI Mater. J. 108(6), 628–637 (2011)
Khayat, K.H., Omran, A.F., Pavate, T.V.: Inclined plane test method to determine structural build-up at rest of self-consolidating concrete. ACI Mater. J. 107(5), 515–522 (2010)
Bouksani, O., Kharchi, F., Benhadji, M., Belhamel, F.: Influence of the roughness and moisture of the substrate surface on the bond between old and new concrete. Contemp. Eng. Sci. 3(3), 139–147 (2010)
Kharchi, F., Benhadji, M., Bouksani. O.: Repair of concrete structures with SCC. World Acad. Sci. Eng. Technol. 58, p. 122 (2011)
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Khayat, K.H., Desnerck, P. (2014). Bond Properties of Self-Compacting Concrete. In: Khayat, K., De Schutter, G. (eds) Mechanical Properties of Self-Compacting Concrete. RILEM State-of-the-Art Reports, vol 14. Springer, Cham. https://doi.org/10.1007/978-3-319-03245-0_4
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