Bulletin of the Chinese Ceramic Society, Volume. 42, Issue 3, 878(2023)
Effect of Mixing Procedure on Pumping Properties of High-Performance Concrete
[1] [1] JIAO D W, SHI C J, YUAN Q, et al. Effect of constituents on rheological properties of fresh concrete:a review[J]. Cement and Concrete Composites, 2017, 83: 146-159.
[3] [3] KWON S H, JANG K P, KIM J H, et al. State of the art on prediction of concrete pumping[J]. International Journal of Concrete Structures and Materials, 2016, 10: 75-85.
[7] [7] KAPLAN D, LARRARD F, SEDRAN T. Design of concrete pumping circuit[J]. ACI Materials Journal, 2005, 102(2): 110-117.
[8] [8] CHOI M, ROUSSEL N, KIM Y, et al. Lubrication layer properties during concrete pumping[J]. Cement and Concrete Research, 2013, 45: 69-78.
[9] [9] FEYS D, KHAYAT K H, PEREZ-SCHELL A, et al. Prediction of pumping pressure by means of new tribometer for highly-workable concrete[J]. Cement and Concrete Composites, 2015, 57: 102-115.
[10] [10] KAPLAN D, LARRARD F, SEDRAN T. Avoidance of blockages in concrete pumping process[J]. ACI Materials Journal, 2005, 102(3): 183-191.
[11] [11] ROUSSEL N, OVARLEZ G, GARRAULT S, et al. The origins of thixotropy of fresh cement pastes[J]. Cement and Concrete Research, 2012, 42(1): 148-157.
[12] [12] KHAYAT KH, ASSAAD JJ. Effect of w/cm and high-range water-reducing admixture on formwork pressure and thixotropy of self-consolidating concrete[J]. ACI Materials Journal, 2006, 103(3): 183-193.
[13] [13] DILS J, SCHUTTER G, BOEL V. Influence of mixing procedure and mixer type on fresh and hardened properties of concrete: a review[J].Materials and Structures, 2012, 45(11): 1673-1683.
[14] [14] MAZANEC O, LOWKE D, SCHIESSEL P. Mixing of high performance concrete: effect of concrete composition and mixing intensity on mixing time[J]. Materials and structures, 2010, 43(3): 357-365.
[15] [15] SCHIESSEL P, MAZANEC O, LOWKE D. SCC and UHPC: effect of mixing technology on fresh concrete properties[C]//Advances in Construction Materials 2007. Berlin, Heidelberg: Springer Berlin Heidelberg, 2007: 513-522.
[18] [18] ESMAEILKHANIAN B, KHAYAT K H, YAHIA A, et al. Effects of mix design parameters and rheological properties on dynamic stability of self-consolidating concrete[J]. Cement and Concrete Composites, 2014, 54: 21-28.
[19] [19] HEIRMAN G, VANDEWALLE L, et al. Integration approach of the Couette inverse problem of powder type self-compacting concrete in a wide-gap concentric cylinder rheometer[J]. Journal of non-Newtonian fluid mechanics, 2008, 150(2-3): 93-103.
[20] [20] DE LARRARD F, FERRARIS F, SEDRAN T. Fresh concrete: a Herschel-Bulkley material[J]. Materials and structures, 1998, 31(7): 494-498.
[21] [21] NGO T, KADRI H, BENNACER R, et al. Use of tribometer to estimate interface friction and concrete boundary layer composition during the fluid concrete pumping[J]. Construction and Building Materials, 2010, 24(7): 1253-1261.
[22] [22] SHEN W K, SHI C J, KHAYAT K, et al. Change in fresh properties of high-strength concrete due to pumping[J]. Construction and Building Materials, 2021, 300: 124069.
[23] [23] YAMMINE J, CHAOUCHE M, GUERINET M, et al. From ordinary rhelogy concrete to self compacting concrete: a transition between frictional and hydrodynamic interactions[J]. Cement and Concrete Research, 2008, 38(7): 890-896.
[24] [24] FERNNDEZ-ALTABLE V, CASANOVA I. Influence of mixing sequence and superplasticiser dosage on the rheological response of cement pastes at different temperatures[J]. Cement and Concrete Research, 2006, 36(7): 1222-1230.
[25] [25] ROUSSEL N. A thixotropy model for fresh fluid concretes: theory, validation and applications[J]. Cement and Concrete Research, 2006, 36(10): 1797-1806.
[26] [26] FLATT R J, HOUST Y. A simplified view on chemical effects perturbing the action of superplasticizers[J]. Cement and concrete research, 2001, 31(8): 1169-1176.
[27] [27] KIM J S, KWON S H, JANG K P, et al. Concrete pumping prediction considering different measurement of the rheological properties[J]. Construction and Building Materials, 2018, 171: 493-503.
[28] [28] VANHOVE Y, KHAYAT K H. Forced bleeding test to assess stability of flowable concrete[J]. ACI Materials Journal, 2016, 113(6): 753-758.
[29] [29] SECRIERU E, COTARDO D, MECHTCHERINE V, et al. Changes in concrete properties during pumping and formation of lubricating material under pressure[J]. Cement and Concrete Research, 2018, 108: 129-139.
[30] [30] PARK C K, JANG K P, JEONG J H, et al. Suggestion of a model for filling coefficient of hydraulic cylinder in concrete pump[J]. Journal of the Korean Recycled Construction Resources Institute, 2016, 4(2): 195-202.
[31] [31] FEYS D, KHAYAT K H, KHATIB R. How do concrete rheology, tribology, flow rate and pipe radius influence pumping pressure?[J]. Cement and Concrete Composites, 2016, 66: 38-46.
[32] [32] ROGER D, PHILLIP B. Tests to establish concrete pumpability[J]. ACI Journal Proceedings, 1977, 74(5): 193-203.
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SHEN Wenkai, YUAN Qiang, JI Youhong, ZENG Rong, LI Wei, LI Fumin, SHI Caijun. Effect of Mixing Procedure on Pumping Properties of High-Performance Concrete[J]. Bulletin of the Chinese Ceramic Society, 2023, 42(3): 878