Civil Engineering Reference
In-Depth Information
in
SP-100: Concrete Durability: Proceedings of Katharine and Bryant Mather
International Symposium
, 1833-1862.
O'Connell M, McNally C and Richardson M G (2010), Biochemical attack on concrete in
wastewater applications: A state of the art review,
Cement and Concrete Composites
,
32
, 479-485.
O'Connell M, McNally C and Richardson M G (2012), Performance of concrete
incorporating GGBS in aggressive wastewater environments,
Construction and
Building Materials
,
27
, 368-374.
Odler I and Chen Y (1995), Effect of cement composition on the expansion of heat-cured
cement pastes,
Cement and Concrete Research
,
25
, 853-862.
Odler I and Chen Y (1996), On the delayed expansion of heat cured Portland cement
pastes and concretes,
Cement and Concrete Composites
,
18
, 181-185.
O'Donnell C, Dodd V A, O'Kiely P and Richardson M (1995), A study of the effects of
silage effluent on concrete: Part 1, Significance of concrete characteristics,
Journal
of Agricultural Engineering Research
,
60
, 83-92.
Oliveira L, Jalali S, Fernandes J and Torres E (2005), L'emploi de métakaolin dans la
production de béton écologiquement efficace,
Materials and Structures
,
38
, 403-410.
10.1007/bf02479308
Ollivier J P and Torrenti J M (2008), La structure poreuse des bétons et les propriétés
de transfert,
La durabilité des bétons
-
Bases scientifiques pour la formulation de
bétons durables dans leur environnement
, 2nd ed. Paris, Presses de l'école nationale
des Ponts et Chaussées (ENPC).
Ollivier J P, Maso J C and Bourdette B (1995), Interfacial transition zone in concrete,
Advanced Cement Based Materials
,
2
, 30-38.
Osborne G J (1991), The sulphate resistance of Portland and blast furnace slag cement
concretes, in
SP-126: Durability of Concrete: Second International Conference
, ACI,
1047-1072.
Page C and Vennesland Ø (1983), Pore solution composition and chloride binding
capacity of silica-fume cement pastes,
Materials and Structures
,
16
, 19-25. 10.1007/
bf02474863
Page C L, Short N R and El Tarras A (1981), Diffusion of chloride ions in hardened
cement pastes,
Cement and Concrete Research
,
11
, 395-406.
Pavia S and Condren E (2008), Study of the durability of OPC versus GGBS concrete on
exposure to silage effluent,
Journal of Materials in Civil Engineering
,
20
, 313-320.
10.1061/(asce)0899-1561(2008)20:4(313).
Pepper L and Mather B (1959), Effectiveness of mineral admixtures in preventing
excessive expansion of concrete due to alkali silica reaction, proceedings of ASTM
V,
59
, 1178-1203.
Pettersson K (1992), Effects of silica fume on alkali-silica expansion in mortar specimens,
Cement and Concrete Research
,
22
, 15-22.
Pigeon M, Plante P and Plante M (1989), Air-void stability. 1. Influence of silica fume
and other parameters,
ACI Materials Journal
,
86
, 482-490.
Pigeon M, Gagné R, Aitcin P-C and Banthia N (1991), Freezing and thawing tests of
high-strength concretes,
Cement and Concrete Research
,
21
, 844-852.
Pigeon M, Talbot C, Marchand J and Hornain H (1996), Surface microstructure and
scaling resistance of concrete,
Cement and Concrete Research
,
26
, 1555-1566.
Pihlajavaara S (1968), Some results of the effect of carbonation on the porosity and pore
size distribution of cement paste,
Materials and Structures
,
1
, 521-527. 10.1007/
bf02473640