Civil Engineering Reference
In-Depth Information
Çavdar, A., Yetgin, Ş. (2007), Availability of tuffs from northeast of Turkey as natural
pozzolan on cement, some chemical and mechanical relationships.
Construction and
Building Materials
21
, 2066-2071.
Çavdar, A., Yetgin, Ş. (2009), The effect of particle fineness on properties of Portland
pozzolan cement mortars,
Turkish Journal of Science & Technology
4
, 17-23.
CEMBuREAu (2001),
The European Cement Association (CEMBUREAU), annual
report, 2001.
Colak, A. (2002), The long-term durability performance of gypsum-Portland-cement-natural
pozzolan blends.
Cement and Concrete Research
32
, 109-115.
Colak, A. (2003), Characteristics of pastes from a Portland cement containing different
amounts of natural pozzolan.
Cement and Concrete Research
33
, 585-593.
Das, S. (2006), Yudhbir - A simplified model for prediction of pozzolanic characteristics
of fly ash, based chemical composition.
Cement and Concrete Research
36
, 1827-
1832.
dalinaidu, A., das, B., singh, d. (2007), Methodology for rapid determination of pozzolanic
activity of materials.
Journal of ASTM International
4
. doi: 10.1520/JAi100343
Diamond, S. (1982), Characterization and classification of fly ashes in terms of certain
specific chemical and physical parameters.
International Symposium on the Use of
PFA in Concrete
(Cabrera J. G. and Cuseus A. R. (eds)). Leeds, 9-22.
donatello, s., Tyrer, M., Cheeseman, C.R. (2010), Comparison of test methods to assess
pozzolanic activity.
Cement and Concrete Composites
32
, 121-127.
EN 197-1 (2000), Cement; Part 1: Composition, Specifications and Conformity Criteria
for Common Cements. European Committee for standardization.
EN 196-5 (2005), Methods of Testing Cement; Part 5: Pozzolanicity Test for Pozzolan
Cements, European Committee for standardization.
EN 196-2 (2005), Methods of Testing Cement; Part 2: Chemical Analysis of Cement.
European Committee for standardization.
Ezziane, K., Bougara, A., Kadri, A., Khelafi, H., Kadri, E. (2007), Compressive strength
of mortar containing natural pozzolan under various curing temperature.
Cement and
Concrete Composites
29
, 587-593.
Feng, N., Peng, G. (2005), Applications of natural zeolite to construction and building
materials in China.
Construction and Building Materials
19
, 579-584.
Feng, Q., Yamamichi, h., shova, M., sugita, s. (2004), study on the pozzolanic properties
of rice husk ash by hydrochloric acid pretreatment.
Cement and Concrete Research
34
, 521-526.
Franke, L., sisomphon, k. (2004), A new chemical method for analyzing free calcium
hydroxide content in cementing material.
Cement and Concrete Research
34
,
1161-1165.
Frías, M., Rodríguez, C. (2007), Effect of incorporating ferroalloy industry wastes as
complementary cementing materials on the properties of blended cement matrices.
Cement and Concrete Research
,
30
, 212-219.
Frías, M., Villar-Cocina, E., Sánchez de Rojas, M.I., Valencia-Morales, E. (2005), The
effect that different pozzolanic activty methods has on the kinetic constants of the
pozzolanic reaction in sugar cane straw-ash/lime systems: application of a kinetic-
diffusive model.
Cement and Concrete Research
35
, 2137-2142.
Frías, M., Villar-Cocina, E., Valencia-Morales, E. (2007), Characterisation of sugar cane
straw waste as pozzolanic material for construction: calcining temprature and kinetic
parameters.
Waste Management
,
27
, 533-538.
Garcia, R., Vigil de la Villa, R., Vegas, I., Frias, M., Sanchez de Rojas, MI. (2008), The
