Investigation on moment - curvature relationship of quaternary blended reinforced cement concrete
1
Department of Civil Engineering, National Institute of Technology, Warangal, Telangana- India.
Publication date: 2018-09-01
Cement Wapno Beton 23(5) 347-357 (2018)
KEYWORDS
Strength characteristicsfl y ashsilica fumelime sludgequaternary blended concretestress- strain characteristicsmoment curvature relationship
REFERENCES (25)
1.
M.A Rahman, P.K. Sarker, F.U.A. Shaikh, A.K Saha, Soundness and compressive strength of Portland cement blended with ground granulated ferronickel slag, Constr. Build. Mater, 140, 194-202, (2017).
2.
M.S Imbabi, C. Carrigan, S. McKenna, Trends and developments in green cement and concrete technology, Int J of Sust Built Env., 1, 194-216, (2012).
3.
M. Schneider, M. Romer, M. Tschudin, H. Bolio, Sustainable cement production-present and future, Cem. Concr. Res., 41,642–650, (2011).
4.
T.R Naik, S.S Singh, M.M Hossain, Properties of high performance concrete systems incorporating large amounts of high-lime fl y ash, Constr. Build. Mater., 9,195–204, (1995).
5.
M.C.G. Juenger, R. Siddique, Recent advances in understanding the role of supplementary cementitious materials in concrete, Cem. Concr. Res., 78, 71-80, (2015).
6.
V. Sata, C.Jaturapitakkul, K.Kiattikomol, Infl uence of pozzolan from various by-product materials on mechanical properties of high-strength concrete, Constr. Build. Mater., 21, 1589-1598, (2007).
7.
A. Muthadhi, S.Kothandaraman, Experimental Investigations of Performance Characteristics of Rice Husk Ash-Blended Concrete, J. Mater. Civil. Eng., 25, 1115-1118, (2013).
8.
M.H Zhang, V.M Malhotra, High-performance concrete incorporating rice husk ash as a supplementary cementing material, ACI. Mater. J., 93, 629–636, (1996).
9.
M.S Ismail, A.M Waliuddin, Effect of rice husk ash on high strength concrete, Constr. Build. Mater., 10, 521–526, (1996).
10.
M. Nehdi, J. Duquette, A.El Damaty, Performance of rice husk ash produced using a new technology as a mineral admixture in concrete, Cem. Concr. Res., 33, 1203-1210, (2003).
11.
V. Sata, C. Jaturapitakkul, K. Kiattikomol, Utilization of palm oil fuel ash in high-strength concrete, J. Mater. Civil. Eng., 16, 623-628, (2004).
12.
K. Ganesan, K.Rajagopal, K.Thangavel, Rice husk ash blended cement: Assessment of optimal level of replacement for strength and permeability properties of concrete”, Constr. Build. Mater., 22, 1675–1683, (2008).
13.
R. Duval, E.H Kadri, Infl uence of silica fume on the workability and the compressive strength of high-performance concretes, Cem. Concr. Res., 28, 533–547, (1998).
14.
A. Joshaghani, M.A Moeini, M.Balapour, Evaluation of incorporating metakaolin to evaluate durability and mechanical properties of concrete, Adv. Concrete. Constr., 5, 241-255, (2017).
15.
T. H. Wee, M. S Chin, M. A Mansur. Stress-strain relationship of high- -strength concrete in compression. J. of Materials in Civil Engineering, 8, pp.70-76 (1996).
16.
A. Sadrmomtazi, B. Tahmouresi, M. Amooie, Permeability and mechanical properties of binary and ternary cementitious mixtures, Adv. Concrete. Constr. 5, 423-436, (2017).
17.
T. S Babu, J. Pavitra, Effect of Fly Ash and Silica Fumes on Strength, Stress Strain Behaviour of M25 Concrete Mix, Intern. J. of Civil and Structural Engineering Research, 3, 62-69, (2017).
18.
T.S Babu , M.V.S Rao, D. Ramaseshu, Mechanical properties and stress- strain behaviour of self-compacting concrete with and without glass fi bres, Asian journal of civil engineering, 9, 457-472, (2008).
19.
M.H Zhang, Microstructure, Crack Propagation, and Mechanical Properties of Cement Pastes Containing High Volumes of Fly Ashes, Cem, Concr, Res., 25, 1165-1178, (1995).
20.
D. Ravi Prasad, V.V. Praveen Kumar, A study of concrete strength and durability by mineral additives Optimization in conventional low, medium and high grades concretes, Cement Wapno Beton, 84, 299-310, (2017).
21.
D. Ravi Prasad, Badanie właściwości mechanicznych betonu zawierającego odpady z przemysłu papierniczego – szlam wapienny zastępujący częściowo cement, Cement Wapno Beton, 83, 298-307, (2018).
22.
M.L.V Prasad, P. Rathish Kumar, Moment-curvature relationship of glass fi ber reinforced self compacting recycled aggregate concrete, J. Environ. Res. Develop., 7, 1061-1070, (2012).
25.
IS: 383- 1970, Specifi cation for Coarse and Fine Aggregates from Natural Sources for Concrete.
Share
RELATED ARTICLE
| ISSN: | 1425-8129 |
Całkowita kwota działania: 101 900 PLN
Kwota dofinansowania z MNiE: 85 100 PLN
Celem działania jest podniesienie poziomu technicznego obsługi Autorów i usprawnienie przepływu artykułów w procesie redakcyjnym.
Działania mające realizować powyższy cel polegać będą na:
- wprowadzeniu systemu elektronicznego zarządzania zgłaszaniem, recenzowaniem i przetwarzaniem artykułów,
- zmiana dotychczasowej organizacji strony internetowej,
- integracja numerów DOI (przydzielanych obecnie publikowanym artykułom) z bazą CrossRef.
© 2006-2024 Journal hosting platform by Bentus
We process personal data collected when visiting the website. The function of obtaining information about users and their behavior is carried out by voluntarily entered information in forms and saving cookies in end devices. Data, including cookies, are used to provide services, improve the user experience and to analyze the traffic in accordance with the Privacy policy. Data are also collected and processed by Google Analytics tool (more).
You can change cookies settings in your browser. Restricted use of cookies in the browser configuration may affect some functionalities of the website.
You can change cookies settings in your browser. Restricted use of cookies in the browser configuration may affect some functionalities of the website.
