Environmental Engineering Reference
In-Depth Information
38.
Brown, P.W. and Badger, S., The distributions of bound sulfate and chlorides in
concrete subjected to mixed NaCl, MgSO
4
, Na
2
SO
4
attack,
Cement and Concrete
Research
30, 1535, 2000.
39.
Taylor, H.F.W., Famy, C., and Scrivener, K.L., Delayed ettringite formation,
Cement
and Concrete Research
31, 683, 2001.
40.
Li, X.D. et al., Heavy metal speciation and leaching behaviors in cement based
solidified/stabilized waste materials,
Journal of Hazardous Materials
A82, 215, 2001.
41.
Kumarathasan, P. et al., Oxyanion substituted ettringites: synthesis and characteriza-
tion; their potential role in immobilization of As, B, Cr, Se, and V, in
Fly Ash and
Coal Conversion By-Products: Characterization, Utilization, and Disposal VI
,
Materials Research Society, Boston, MA, 1990, p. 80.
42.
Toyohara, M. et al., Contribution to understanding iodine sorption mechanism onto
mixed solid alumina cement and calcium compounds,
Journal of Nuclear Science
and Technology
39, 950, 2002.
43.
van der Sloot, H.A., Characterization of the leaching behaviour of concrete mortars
and of cement stabilized wastes with different waste loading for long-term environ-
mental assessment,
Waste Management
22, 181, 2002.
44.
Glasser, F.P., Fundamental aspects of cement solidification and stabilisation,
Journal
of Hazardous Materials
52, 151, 1997.
45.
Asavapisit, S., Nanthamontry, W., and Polprasert, C., Influence of condensed silica
fume on the properties of cement-based solidified wastes,
Cement and Concrete
Research
31, 1147, 2001.
46.
Wu, Z. and Naik, T.R., Properties of concrete produced from multicomponent blended
cements,
Cement and Concrete Composites
32, 1937, 2002.
47.
Papadakis, V.G., Effect of fly ash on Portland cement systems. Part I. Low-calcium
fly ash,
Cement and Concrete Research
29, 1727, 1999.
48.
Papadakis, V.G., Experimental investigation and theoretical modeling of silica fume
activity in concrete,
Cement and Concrete Research
29, 79, 1999.
49.
Escalante-García, J.I. and Sharp, J.H., The microstructure and mechanical properties
of blended cements hydrated at various temperatures,
Cement and Concrete Research
31, 695, 2001.
50.
Dermatas, D. and Meng, X., Utilization of fly ash for stabilization/solidification of
heavy metal contaminated soils,
Engineering Geology
70, 377, 2003.
51.
Thevenin, G. and Pera, J., Interactions between lead and different binders,
Cement
and Concrete Research
29, 1605, 1999.
52.
Bágel', L. and Zivica, V., Relationship between pore structure and permeability of
hardened cement mortars: on the choice of effective pore structure parameter,
Cement
and Concrete Research
27, 1225, 1997.
53.
Ivey, D.G. et al., Electron microscopy characterization techniques for cement solid-
ified/stabilized metal wastes, in
Chemistry and Microstructure of Solidified Waste
Forms
, Spence, R.D., Ed., Lewis Publishers, Baton Rouge, LA, 1993, p. 123.
54.
Roy, D.M. and Scheetz, B.E., The chemistry of cementitious systems for waste
management: the Penn State experience, in
Chemistry and Microstructure of Solidified
Waste Forms
, Spence, R.D., Ed., Lewis Publishers, Baton Rouge, LA, 1993, p. 83.
55.
Mohr, P. et al., Transport properties of concrete pavements with excellent long-term
in-service performance,
Cement and Concrete Research
30, 1903, 2000.
56.
Shafiq, N. and Cabrera, J.G., Effects of initial curing condition on the fluid transport
properties in OPC and fly ash blended cement concrete,
Cement and Concrete Com-
posites
26, 381, 2004.
Search WWH ::
Custom Search