Civil Engineering Reference
In-Depth Information
Kim H-S, Lee S-H and Moon H-Y (2007), Strength properties and durability aspects of
high strength concrete using Korean metakaolin,
Construction and Building Materials
,
21
, 1229-1237.
Kokubu M and Nagataki S (1989), Carbonation of concrete with fly ash and corrosion
of reinforcements in 20 year tests, in
SP-114: Fly Ash, Silica Fume, Slag, & Natural
Pozzolans in Conc: Proc 3rd Intl Conf
, ACI, 315-330.
Kumar A and Roy B D M (1986), Retardation of Cs
+
and Cl
-
diffusion using blended
cement admixtures,
Journal of the American Ceramic Society
,
69
, 356-360. 10.1111/
j.1151-2916.1986.tb04747.x
Kurdowski W and Duszak S (2004), Can addition of limestone eliminate the expansion
of the mortars due to DEF?, in
International RILEM Workshop on Internal Sulfate
Attack and Delayed Ettringite Formation
, RILEM Publications SARL, 229-235.
Langan B W, Joshi R C and Ward M A (1990), Strength and durability of concretes
containing 50% Portland cement replacement by fly ash and other materials,
Canadian
Journal of Civil Engineering
,
17
, 19-27. doi:10.1139/l90-004
Langley W S, Carette G G and Malhotra V M (1989), Structural concrete incorporating
high volumes of ASTM Class F fly ash,
ACI Materials Journal
,
86
, 507-514.
Laplante P, Aitcin P C and Vezina D (1991), Abrasion resistance of concrete,
Journal
of Materials in Civil Engineering
,
3
, 19-28.
Larbi J A, Fraay A L A and Bijen J M J M (1990), The chemistry of the pore fluid of
silica fume-blended cement systems,
Cement and Concrete Research
,
20
, 506-516.
Larreur-Cayol S, Bertron A, San Nicolas R and Escadeillas G (2011), Durability of
different binders in synthetic agricultural effluents, in
7th International Symposium
on Cement Based Materials for a Sustainable Agriculture
,
11p.
Lawrence C D (1998), Physicochemical and mechanical properties of Portland cements,
in Hewlett, P. C. (Ed.)
Lea's Chemistry of Cement and Concrete
, 4th ed. London,
Arnold Publishers.
LCPC (2007),
Recommandations pour la prévention des désordres dus à la réaction
sulfatique interne des bétons
, Paris, LCPC.
Lee S T, Moon H Y, Hooton R D and Kim J P (2005), Effect of solution concentrations
and replacement levels of metakaolin on the resistance of mortars exposed to magnesium
sulfate solutions,
Cement and Concrete Research
,
35
, 1314-1323.
Litvan G G (1972), Phase transitions of adsorbates: IV, Mechanism of frost action in
hardened cement paste,
Journal of the American Ceramic Society
,
55
, 38-42.
Liu Y-W (2007), Improving the abrasion resistance of hydraulic-concrete containing surface
crack by adding silica fume,
Construction and Building Materials
,
21
, 972-977.
Lothenbach B, Scrivener K and Hooton R (2011), Supplementary cementitious materials,
Cement and Concrete Research
,
41
, 1244-1256.
Luping T and Nilsson L O (1992), Chloride diffusivity in high strength concrete at
different ages,
Nordic Concrete Research
,
11
, 162-171.
Maas A J, Ideker J H and Juenger M C G (2007), Alkali silica reactivity of agglomerated
silica fume,
Cement and Concrete Research
,
37
, 166-174.
Malhotra V M (1983), Strength and durability characteristics of concrete incorporating a
pelletized blast furnace slag, in
SP-79: Fly Ash, Silica Fume, Slag and Other Mineral
By-products in Concrete
, ACI, 891-922.
Malhotra V M, Zhang M H, Read P H and Ryell J (2000), Long-term mechanical
properties and durability characteristics of high-strength/high-performance concrete
incorporating supplementary cementing materials under outdoor exposure conditions,
ACI Materials Journal
,
97
, 518-525.