Early-age hydration characteristics and kinetics model of blended cement containing waste clay brick and slag

[1]  Shujun Li,et al.  Combined effect of slag and clay brick powder on the hydration of blended cement , 2021 .

[2]  Zengqi Zhang,et al.  Hydration heat and kinetics of composite binder containing blast furnace ferronickel slag at different temperatures , 2021, Thermochimica Acta.

[3]  Gaofeng Chen,et al.  Long-term hydration and microstructure evolution of blended cement containing ground granulated blast furnace slag and waste clay brick , 2021 .

[4]  Dongmin Wang,et al.  Hydration properties and kinetic characteristics of blended cement containing lithium slag powder , 2021, Journal of Building Engineering.

[5]  G. Ye,et al.  Lattice Boltzmann simulation of the dissolution of slag in alkaline solution using real-shape particles , 2021 .

[6]  N. Banthia,et al.  Leaching kinetics and reactivity evaluation of ferronickel slag in alkaline conditions , 2020 .

[7]  Junjie Wang,et al.  Effects of Highly Crystalized Nano C-S-H Particles on Performances of Portland Cement Paste and Its Mechanism , 2020 .

[8]  S. Bhattacharya,et al.  Understanding dissolution characteristics of steel slag for resource recovery. , 2020, Waste management.

[9]  Xuemei Chen,et al.  The particle-size effect of waste clay brick powder on its pozzolanic activity and properties of blended cement , 2020 .

[10]  Junjie Wang,et al.  Effects of calcium bicarbonate on the properties of ordinary Portland cement paste , 2019, Construction and Building Materials.

[11]  Xuemei Chen,et al.  Study on the pozzolanic reaction of clay brick powder in blended cement pastes , 2019, Construction and Building Materials.

[12]  Junjie Wang,et al.  Comparison of Effects of Sodium Bicarbonate and Sodium Carbonate on the Hydration and Properties of Portland Cement Paste , 2019, Materials.

[13]  Wei Sun,et al.  The coupling effect of calcium concentration and pH on early hydration of cement , 2018, Construction and Building Materials.

[14]  Wenzhong Zheng,et al.  Effect of dosage of sodium carbonate on the strength and drying shrinkage of sodium hydroxide based alkali-activated slag paste , 2018, Construction and Building Materials.

[15]  G. Long,et al.  Hydration kinetics of cement incorporating different nanoparticles at elevated temperatures , 2018, Thermochimica Acta.

[16]  Vanderley Moacyr John,et al.  Carbon dioxide reduction potential in the global cement industry by 2050 , 2017, Cement and Concrete Research.

[17]  H. Schmidt,et al.  Influence of phosphorus from phosphogypsum on the initial hydration of Portland cement in the presence of superplasticizers , 2017 .

[18]  H. Kühne,et al.  The effect of superplasticizers on rheology and early hydration kinetics of rice husk ash-blended cementitious systems , 2017 .

[19]  Faiz Shaikh,et al.  Microstructure and Nanoscaled Characterization of HVFA Cement Paste Containing Nano-SiO2 and Nano-CaCO3 , 2017 .

[20]  M. Zając,et al.  Early hydration of SCM-blended Portland cements: A pore solution and isothermal calorimetry study , 2017 .

[21]  R. Snellings,et al.  The pore solution of blended cements: a review , 2016 .

[22]  Arpad Horvath,et al.  Readily implementable techniques can cut annual CO2 emissions from the production of concrete by over 20% , 2016 .

[23]  R. Flatt,et al.  Understanding silicate hydration from quantitative analyses of hydrating tricalcium silicates , 2016, Nature Communications.

[24]  A. M. Segadães,et al.  Influence of fired clay brick waste additions on the durability of mortars , 2015 .

[25]  Karen L. Scrivener,et al.  Understanding the Filler Effect on the Nucleation and Growth of C-S-H , 2014 .

[26]  P. Yan,et al.  Characteristics of the hydration heat evolution of composite binder at different hydrating temperature , 2014 .

[27]  Ali A. Aliabdo,et al.  Utilization of crushed clay brick in concrete industry , 2014 .

[28]  Jeffrey W. Bullard,et al.  The Filler Effect: The Influence of Filler Content and Surface Area on Cementitious Reaction Rates , 2013 .

[29]  Alain Sellier,et al.  Hydration of slag-blended cements , 2012 .

[30]  B. Lothenbach,et al.  The early hydration of Ordinary Portland Cement (OPC): An approach comparing measured heat flow with calculated heat flow from QXRD , 2012 .

[31]  J. Bullard,et al.  Mechanisms of cement hydration , 2011 .

[32]  B. Lothenbach,et al.  Supplementary cementitious materials , 2011 .

[33]  Martin Schneider,et al.  Sustainable cement production—present and future , 2011 .

[34]  F. Goetz-Neunhoeffer,et al.  A new approach in quantitative in-situ XRD of cement pastes: Correlation of heat flow curves with early hydration reactions , 2011 .

[35]  Robert J. Flatt,et al.  Dissolution theory applied to the induction period in alite hydration , 2010 .

[36]  A. Nonat,et al.  Early C3A hydration in the presence of different kinds of calcium sulfate , 2009 .

[37]  André Nonat,et al.  Mechanisms and Parameters Controlling the Tricalcium Aluminate Reactivity in the Presence of Gypsum , 2007 .

[38]  H. Binici,et al.  The effect of fineness on the properties of the blended cements incorporating ground granulated blast furnace slag and ground basaltic pumice , 2007 .

[39]  G. Chan,et al.  A peak in the hydration reaction at the end of the cement induction period , 2007 .

[40]  Wei Sun,et al.  Fly ash effects. II. The active effect of fly ash , 2004 .

[41]  Davor Rušić,et al.  A new approach in mathematical modelling of cement hydration development , 2000 .

[42]  Pero Dabić,et al.  A conceptual model of the cement hydration process , 2000 .

[43]  C. M. Dobson,et al.  In situ solid-state NMR studies of Ca3SiO5: hydration at room temperature and at elevated temperatures using 29Si enrichment , 1994, Journal of Materials Science.

[44]  W. A. Gutteridge,et al.  Filler cement: The effect of the secondary component on the hydration of Portland cement: Part I. A fine non-hydraulic filler , 1990 .

[45]  C. Dobson,et al.  Hydration of Tricalcium Silicate Followed by 29Si NMR with Cross‐Polarization , 1988 .

[46]  A. Bezjak Nuclei growth model in kinetic analysis of cement hydration , 1986 .