Utilization of industrial waste for green concrete
 
 
More details
Hide details
1
Vocational School, Kastamonu University, Turkey
 
 
Publication date: 2010-07-01
 
 
Cement Wapno Beton 15(4) 210-216 (2010)
 
REFERENCES (19)
1.
TS 802, (1985), Beton Karışım Hesabı Esasları (in Turkish), TSE.
 
2.
N. Fung, High Performance Concrete, Beijing, China Building Industry Press, (1996).
 
3.
ASTM, Standard Specifi cations for Fly Ash and Raw or Calcined Natural Pozzolan for Use as Mineral Admixture in Portland Cement Concrete, ASTM C 618, American Society for Testing and Materials, Philadelphia, ASTM C 618-85 (1997).
 
4.
Z. Sekulic, S. Popov, M. Duricic, A. Rosic, Mechanical activation of cement with addition of fl y ash, Mater Lett; 39: 115-21 (1999).
 
5.
V. M. Malhotra, Making Concrete “Greener” with Fly Ash, Concrete and Sustainable Development, Concr. Int. 21 (5) 61–66 (1999).
 
6.
P. K. Mehta, Refl ections Advancements in Concrete Technology, 2nd International Symposium on Cement and Concrete Technology in the 2000s, 6-10 September, Vol.1, 43-57, İstanbul 2000.
 
7.
T. Sugama, L. Weber, L. E. Brothers, Sodium-polyphosphate-modifi ed fl y ash/calcium aluminate blend cement: durability in wet, harsh geothermal environments, Mater Lett; 44: 45-53 (2000).
 
8.
Infocer, Institu to para la Sostenibilidad de los Recursos, España, Boletín (2002).
 
9.
E. Yasar, C. D. Atis, A. Kilic, H. Gulsen, Strength properties of lightweight concrete made with basaltic pumice and fl y ash, Mater Lett; 57: 2267-70 (2003).
 
10.
G. Li, X. Zhao, Properties of Concrete Incorporating Fly Ash and Ground Granulated Blast-Furnace Slag, Cement & Concrete Composites 25, 293-299 (2003).
 
11.
R. Siddique, Performance Characteristicsof High-Volume Class F Fly Ash Concrete, Cement Concrete Res; 34: 487-93 (2004).
 
12.
C. D. Atis, U. K. Sevim, F. Ozcan, C. Bilim, O. Karahan, et al., Strength properties of roller compacted concrete containing a non-standard high calcium fl y ash, Mater Lett; 58: 1446-50 (2004).
 
13.
J. Ryou, Examination of grinding techniques for the reuse of by-products of cement production, Mater Lett; 58: 425-7 (2004).
 
14.
S. Antiohos, K. Man agari, S. Tsimas, Evaluation of blends of high and low calcium fl y ashes for use as supplementary cementing materials regular, Cement Concrete Comp, 27, 349-56 (2005).
 
15.
S. Antiohos, S. Tsimas, Investigating The Role of Reactive Silica in the Hydration Mechanisms of High-Calcium Fly Ash/Cement Systems, Cement & Concrete Composites 27, 171-81 (2005).
 
16.
S. Tsimas, A. Moutsatsou-Tsima, High-calcium Fly Ash as Fourth Constituent in Concrete: Problems, Solutions and Perspectives, Cement Concrete Composites; 27:231-237 (2005).
 
17.
H. Y. Aruntas, Uçucu Küllerin Inşaat Sektöründe Kullanım Potansiyeli, Gazi Universitesi Muh. Mim. Fak. Dergisi; 21 (1):193-203, (in Turkish) (2006).
 
18.
E. P. Mora, Life Cycle, Sustainability and the Transcendent Quality of Building Materials, Building and Environment, 42:1329–1334 (2007).
 
19.
R. D. Toledo Filho, J. P. Gonçalves, B. B. Americano, E. M. R. Fairbairn, Potential for use of crushed waste calcined-clay brick as a supplementary cementitious material in Brazil, Cement and Concrete Research 37, 1357–1365 (2007).
 
ISSN:1425-8129
Journals System - logo
Scroll to top