A.R. Brough et al., A Study of the Pozzolanic Reaction by Solid State Si-29 NMR Using Selective Isotopic Enrichment, J. Materials Sci., 30:1671-1678. |
L.J. Schreiner et al., NMR Line Shape-Spin-Lattice Relaxation Correlation Study of Portland Cement Hydration, J. Amer. Ceram. Soc., 68�1!:10-16. |
R. Blinc et al., NMR Relaxation Study of Absorbed Water in Cement and Tricalcium Silicate Pastes, J. Amer. Ceram. Soc., 61�1!:35-39. |
L. Barbic et al., The Determination of Surface Development in Cement Pastes by NMR, J. Amer. Ceram. Soc., 65�1!:25-30. |
E. Laganas et al., Analysis of Complex H-1 NMR Relaxation Measurements in Developing Porous Structures--A Study in Hydrating Cement, J. Applied Physics, 77:3343-3348. |
H.C. Gran, Fluorescent Liquid Replacement Technique, a Means of Crack Detection and Water/Binder Ratio Determination In High-Strength Concretes, Cement & Concrete Res., 25:1063-1074. |
S. Kwan et al., Si-29 and Al-27 MASNMR Study of Stratlingite, J. Amer. Ceram. Soc., 78:1921-1926. |
M. Bogdan et al., Single-Point Imaging of Partially Dried, Hydrated White Portland Cement, J. of Magnetic Resonance, Series A, 116:266-269. |
J. Link et al., Water Transport in Concrete, Magnetic Resonance Imaging, vol. 12, No. 2, 1994, pp. 203-205. |
F. Papavassillou et al., H Nuclear Magnetic Resonance Imaging of Water Diffusion in Hardened Cement Pastes, J. Am. Ceram. Soc., 76:2109-2111. |
R.A. Hanna et al., Solid State Si-29 and Al-27 NMR and FTIR Study of Cement Pastes Containing Industrial Wastes and Organics, Cement & Concrete Res., 25:1435-1444. |
X.D. Cong et al., Effects of the Temperature and Relative Humidity on the Structure of C-S-H Gel, Cement & Concrete Res., 25:1237-1245. |
S.U. Aldulaijan et al., Si-29 MASNMR Study of Hydrated Cement Paste and Mortar Made With and Without Silica Fume, J. Amer. Ceram. Soc., 78:342-346. |