The effect of curing regime on the distribution ofAl3+ coordination in hardened cement pastes within 28 d were investigated by 29Si and 27Al magic angle spinning (MAS) nuclear magnetic resonance(NMR) with deconvo...The effect of curing regime on the distribution ofAl3+ coordination in hardened cement pastes within 28 d were investigated by 29Si and 27Al magic angle spinning (MAS) nuclear magnetic resonance(NMR) with deconvolution technique. The results indicate that the tetrahedral coordination Al3+ incorporated in C-S-H structure mainly originate from the AP+ incorporated in the alite and belite phases in the Portland cement. The curing regime of constant temperature of 20 ℃ is beneficial to the octahedral coordination Al3+ transforming to tetrahedral coordination AP+ incorporated in C-S-H structure. However, at curing regime of variable temperature, the temperature rising process is more advantageous to the transformation from ettringite to monosulphate, substitution of Al3+ for Si4+ in the C-S-H structure and the formation of the third aluminate hydrate (TAH) than that at constant temperature of 20 ℃. The high temperature of 60 ℃ in the holding temperature process promotes the decomposition of ettringite, and enhances the consumption of the Al3+ incorporated in C-S-H phases and the Al3+ in TAH for the monosulphate forming. The temperature decreasing promotes the transformation from monosulphate to ettringite, and increases the consumption of the Al3+ incorporated in C-S-H phases, and then increases the quantity of the TAH.展开更多
The influence of polyepoxysuccinic acid(PESA)on the solid phase products in hydrated Portland cement pastes was investigated by isothermal calorimetry,X-ray diffraction(XRD),^29Si and ^27Al nuclear magnetic resona...The influence of polyepoxysuccinic acid(PESA)on the solid phase products in hydrated Portland cement pastes was investigated by isothermal calorimetry,X-ray diffraction(XRD),^29Si and ^27Al nuclear magnetic resonance(NMR).The results indicated that PESA bonds Ca^2+ions in pore solution to prevent portlandite formation,and also combines with Ca^2+ions on the surface of silicate minerals to prolong the control time of phase boundary reaction process,leading to the retardation of silicate mineral hydration.Meanwhile,the interlayer Ca^2+ions in Jennite-like structure bridging PESA and C-S-H gels prevent silicate tetrahedron and aluminum tetrahedron from occupying the sites of bridging silicate tetrahedron,which causes the main existence of dimer in C-S-H structure,deceases the degree of Al^3+substituting for Si^4+and promotes the transformation from 4-coordination aluminum to 6-coordination aluminum.Furthermore,the-Ca^+chelating group from reacting PESA with Ca^2+ions combines easily with SO4^2-ions,resulting in transformation from ettringite,AFm to TAH(Third aluminum hydrate).However,with the higher addition of PESA,it will bridge the excess PESA by Ca^2+ions to form a new chelate with ladder-shaped double chains structure,which not only reduces the amount of PESA bonding Ca^2+ions,but also decreases its solidifying capability for SO4^2-ions,leading to the transformation from TAH to AFm or ettringite.Meanwhile,at later hydration,the inhibition effect of PESA on cement hydration is weakened,and the transformation degree from TAH to AFm is higher than that to AFt with the addition of PESA.展开更多
基金Funded by the Major State Basic Research Development Program of China(973 Program)(No.2009CB623201)
文摘The effect of curing regime on the distribution ofAl3+ coordination in hardened cement pastes within 28 d were investigated by 29Si and 27Al magic angle spinning (MAS) nuclear magnetic resonance(NMR) with deconvolution technique. The results indicate that the tetrahedral coordination Al3+ incorporated in C-S-H structure mainly originate from the AP+ incorporated in the alite and belite phases in the Portland cement. The curing regime of constant temperature of 20 ℃ is beneficial to the octahedral coordination Al3+ transforming to tetrahedral coordination AP+ incorporated in C-S-H structure. However, at curing regime of variable temperature, the temperature rising process is more advantageous to the transformation from ettringite to monosulphate, substitution of Al3+ for Si4+ in the C-S-H structure and the formation of the third aluminate hydrate (TAH) than that at constant temperature of 20 ℃. The high temperature of 60 ℃ in the holding temperature process promotes the decomposition of ettringite, and enhances the consumption of the Al3+ incorporated in C-S-H phases and the Al3+ in TAH for the monosulphate forming. The temperature decreasing promotes the transformation from monosulphate to ettringite, and increases the consumption of the Al3+ incorporated in C-S-H phases, and then increases the quantity of the TAH.
基金Funded by the Major State Basic Research Development Program of China(973 Program)(No.2015CB655101)Hubei Key Laboratory of Roadway Bridge and Structure Engineering(Wuhan University of Technology)(No.DQZDJJ201504)+2 种基金State Key Laboratory of High Performance Civil Engineering Materials(No.2015CEM006)Natural Science Foundation of Hebei Province(No.E2016209283)Science and Technology Program of Hebei Province(No.16273706D)
文摘The influence of polyepoxysuccinic acid(PESA)on the solid phase products in hydrated Portland cement pastes was investigated by isothermal calorimetry,X-ray diffraction(XRD),^29Si and ^27Al nuclear magnetic resonance(NMR).The results indicated that PESA bonds Ca^2+ions in pore solution to prevent portlandite formation,and also combines with Ca^2+ions on the surface of silicate minerals to prolong the control time of phase boundary reaction process,leading to the retardation of silicate mineral hydration.Meanwhile,the interlayer Ca^2+ions in Jennite-like structure bridging PESA and C-S-H gels prevent silicate tetrahedron and aluminum tetrahedron from occupying the sites of bridging silicate tetrahedron,which causes the main existence of dimer in C-S-H structure,deceases the degree of Al^3+substituting for Si^4+and promotes the transformation from 4-coordination aluminum to 6-coordination aluminum.Furthermore,the-Ca^+chelating group from reacting PESA with Ca^2+ions combines easily with SO4^2-ions,resulting in transformation from ettringite,AFm to TAH(Third aluminum hydrate).However,with the higher addition of PESA,it will bridge the excess PESA by Ca^2+ions to form a new chelate with ladder-shaped double chains structure,which not only reduces the amount of PESA bonding Ca^2+ions,but also decreases its solidifying capability for SO4^2-ions,leading to the transformation from TAH to AFm or ettringite.Meanwhile,at later hydration,the inhibition effect of PESA on cement hydration is weakened,and the transformation degree from TAH to AFm is higher than that to AFt with the addition of PESA.
