Up: Main Previous: Acknowledgements
- 1
-
G. Achari, S. Chatterji, and R.C. Joshi,
Evidence of the concentration dependent ionic diffusivity
through saturated porous media, in:
L.-O. Nilsson and J.P. Ollivier (Eds.),
Chloride Penetration Into Concrete,
RILEM, 1995, 74-76.
- 2
-
J. Arsenault, J.-P. Bigas, and J.-P. Ollivier,
Determination of chloride diffusion coefficient using two
different steady-state methods: Influence of concentration
gradient, in:
L.-O. Nilsson and J.P. Ollivier (Eds.),
Chloride Penetration Into Concrete,
RILEM, 1995, 150-160.
- 3
-
T. Zhang and O.E. Gjørv,
Diffusion behavior of chloride ions in concrete,
Cem. Concr. Res.
26 (1996) 907-917.
- 4
-
L. Tang,
Concentration dependence of diffusion and migration of chloride
ions - Part 1. Theoretical considerations,
Cem. Concr. Res.
29 (1999) 1463-1468.
- 5
-
L. Tang,
Concentration dependence of diffusion and migration of chloride
ions - Part 2. Experimental evaluations,
Cem. Concr. Res.
29 (1999) 1469-1474.
- 6
-
H. Ushiyama and S. Goto,
Diffusion of various ions in hardened portland cement paste,
The 6 International Congress
of the Chemistry of Cement,
Vol. 2 - Book 3,
Moscow, 1974.
- 7
-
K.A. Snyder,
The relationship between the formation factor and the diffusion
coefficient of porous materials saturated with concentrated
electrolytes: Theoretical and experimental considerations,"
Concr. Sci. Engin., 3, 2001, 216-224.
- 8
-
I. Rubinstein,
Electro-Diffusion of Ions,
SIAM, Philidelphia, 1990.
- 9
-
L.-O. Nilsson, E. Poulsen, P. Sandberg, P. Sorensen, and O. Klinghoffer,
HETEK - Chloride Penetration Into Concrete, Report No. 53,
The Road Directorate,
Copenhagen, Denmark, 1996.
- 10
-
K.A. Snyder, J.R. Clifton, and J. Pommersheim,
A computer program to facilitate performance assessment
of underground low-level waste concrete vaults,'' in:
W.M. Murphy and D.A. Knecht (Eds.),
Scientific Basis for Nuclear Waste Management
19,
(Mat. Res. Soc. Symp. Proc. Vol. 412),
Materials Research Society, Pittsburgh, 1996,
491-498.
- 11
-
D.P. Bentz, J.R. Clifton, and K.A. Snyder,
Predicting service life of chloride-exposed steel-reinforced
concrete, Concr. Int.
18 (1996) 42-47.
- 12
-
E.J. Reardon,
An ion interaction model for determination of
chemical equilibria in cement/water systems,
Cem. Concr. Res.
20 (1990) 175-192.
- 13
-
J. Duchesne and E.J. Reardon,
Measurement and prediction of portlandite solubility in
alkali solutions,
Cem. Concr. Res.
25 (1995) 1043-1053.
- 14
-
R. Barbarulo, J. Marchand, K.A. Snyder, and S. Prené,
Dimensional analysis of ionic transport problems in hydrated
cement systems - Part 1: Theoretical considerations,
Cem. Concr. Res, 30 (2000) 1955-1960.
- 15
-
J. Crank,
The Mathematics of Diffusion,
Oxford University Press, Second Edition, 1975.
- 16
-
E.L. Cussler,
Multicomponent Diffusion,
Elsevier Scientific, 1976.
- 17
-
M. Kato,
Numerical analysis of the Nernst-Planck-Poisson system,
J. Theor. Bio.
177 (1995) 299-304.
- 18
-
A.E. James, J.D. Stillman, and D.J.A. Williams,
Finite element solution of the equations governing the
flow of electrolyte in charged microporous membranes,
Int. J. Numer. Meth. Fluids
20 (1995) 1163-1178.
- 19
-
E. Samson and J. Marchand,
Numerical solution of the extended Nernst-Planck model,
J. Coll. Interface Sci.
215 (1999) 1-8.
- 20
-
E. Samson and J. Marchand,
Modelling ion diffusion mechanisms in porous media,
Int. J. Numer. Meth. Engin.
46 (1999) 2043-2060.
- 21
-
O. Truc, J.-P. Ollivier, and L. O. Nilsson,
Numerical solution of multi-species diffusion,
Mater. Struct.
33 (2000) 566-573.
- 22
-
O. Truc, J.-P. Ollivier, and L.-O. Nilsson,
Numerical simulation of multi-species transport through
saturated concrete during a migration test,
Cem. Concr. Res.
30 (2000) 1581-1592.
- 23
-
J. Bear,
Dynamics of Fluids in Porous Media,
Dover Publications, 1988.
- 24
-
F. Helfferich,
Ion Exchange,
McGraw-Hill,
1962.
- 25
-
C. Kittel and H. Kroemer,
Thermal Physics,
W.H. Freeman, San Francisco,
1980.
- 26
-
J.O'M. Bockris and A.K.N. Reddy,
Modern Electrochemistry: Vols. 1,2,
Plenum Press, 1970.
- 27
-
E.A. Guggenheim and R.H. Stokes,
Equilibrium Properties of Aqueous Solutions of Single Strong
Electrolytes,
Pergamon Press, 1969.
- 28
-
K.S. Pitzer,
Thermodynamics of electrolytes -
1. Theoretical basis and general
equations,
J. Phys. Chem.
77 (1973) 268-277.
- 29
-
L.N. Plummer, D.L. Parkhurst, G.W. Fleming, and S.A. Dunkle,
A Computer Program Incorporating Pitzer's Equations For Calculation
of Geochemical Reactions In Brines,
U.S. Geological Survey Report 88-4153, Reston, VA, 1988.
- 30
-
R. Mills and V.M.M. Lobo,
Self-Diffusion in Electrolyte Solutions,
Elsevier, 1989.
- 31
-
R.E. Collins,
Flow of Fluids Through Porous Materials,
Reinhold Publishing, 1961.
- 32
-
D.L. Johnson and P.N. Sen,
Dependence of the conductivity of a porous medium on electrolyte
conductivity,
Phys. Rev. B
37 (1988) 3502-3510.
- 33
-
A. Revil and P.W.J. Glover,
Theory of ionic-surface electrical conduction in porous media,
Phys. Rev. B
55 (1997) 1757-1773.
- 34
-
P.N. Sen,
Unified model of conductivity and membrane potential of porous media,
Phys. Rev. B
39 (1989) 9508-9517.
- 35
-
A. Revil,
Ionic diffusivity, electrical conductivity, membrane and thermoelectric
potentials in colloids and granular porous media: A unified model,
J. Colloid Interf. Sci.
212 (1999) 503-522.
- 36
-
K.A. Snyder, C. Ferraris, N.S. Martys, and E.J. Garboczi,
Using
impedance spectroscopy to assess the viability of the rapid chloride test for
determining concrete conductivity, J. Res. NIST
105 (2000) 497-509.
- 37
-
R.S. Barneyback and S. Diamond,
Expression and analysis of pore fluid from hardened cement
pastes and mortars,
Cem. Concr. Res.
11 (1981) 279-285.
- 38
-
R.E. McDuff and R.A. Ellis,
Am. J. Sci.
279 (1979) 666-675.
- 39
-
F.A. Settle, ed.,
Handbook of Instrumental Techniques for Analytical Chemistry,
Prentice Hall,
1997.
- 40
-
L.M. Schwartz, P,N. Sen, and D.L. Johnson,
Influence of rough surfaces on electrolytic conduction in
porous media,
Phys. Rev. B
40 (1989) 2450-2458.
- 41
-
H.J.V. Tyrrell and K.R. Harris,
Diffusion in Liquids,
Butterworths, 1984.
- 42
-
B.N. Taylor and C.E. Kuyatt,
Guidelines for Evaluating and Expressing the Uncertainty of NIST
Measurement Results,
National Institute of Standards and Technology, NIST Technical
Note 1297, Gaithersburg, MD, 1993.
Up: Main Previous: Acknowledgements