Deepak Ravikumar
Deepak Ravikumar
Solidia Technology
Verified email at solidiatech.com
Title
Cited by
Cited by
Year
Structure and strength of NaOH activated concretes containing fly ash or GGBFS as the sole binder
D Ravikumar, S Peethamparan, N Neithalath
Cement and Concrete Composites 32 (6), 399-410, 2010
1692010
Effects of activator characteristics on the reaction product formation in slag binders activated using alkali silicate powder and NaOH
D Ravikumar, N Neithalath
Cement and Concrete Composites 34 (7), 809-818, 2012
1142012
Reaction kinetics in sodium silicate powder and liquid activated slag binders evaluated using isothermal calorimetry
D Ravikumar, N Neithalath
Thermochimica Acta 546, 32-43, 2012
932012
Electrically induced chloride ion transport in alkali activated slag concretes and the influence of microstructure
D Ravikumar, N Neithalath
Cement and Concrete Research 47, 31-42, 2013
522013
Response of alkali activated fly ash mortars to microwave curing
J Somaratna, D Ravikumar, N Neithalath
Cement and Concrete Research 40 (12), 1688-1696, 2010
522010
An electrical impedance investigation into the chloride ion transport resistance of alkali silicate powder activated slag concretes
D Ravikumar, N Neithalath
Cement and Concrete Composites 44, 58-68, 2013
332013
Microstructural, mechanical, and durability related similarities in concretes based on OPC and alkali-activated slag binders
K Vance, M Aguayo, A Dakhane, D Ravikumar, J Jain, N Neithalath
International Journal of Concrete Structures and Materials 8 (4), 289-299, 2014
172014
Aerated composite materials, methods of production and uses thereof
O Deo, V Atakan, D Ravikumar, X Hu, S Sahu, S Gupta, R Riman
US Patent App. 14/207,413, 2014
112014
Property development, microstructure, and performance of alkali activated fly ash and slag systems
D Ravikumar
Clarkson University, 2012
112012
Composite railroad ties and methods of production and uses thereof
J Krishnan, J Jain, D Ravikumar, D Patten, J Kuppler, K Smith, X Hu
US Patent 9,393,715, 2016
102016
Carbonatable calcium silicate compositions and methods thereof
V Atakan, S Quinn, S Sahu, D Ravikumar, N DeCristofaro
US Patent 10,173,927, 2019
9*2019
Aerated composite materials, methods of production and uses thereof
O Deo, D Vuong, D Ravikumar, S Sahu, V Atakan
US Patent 9,963,392, 2018
82018
Method and apparatus for the curing of composite material by control over rate limiting steps in water removal
D Patten, V Atakan, D Castoro, D Ravikumar, J Kuppler, S Jensen, ...
US Patent 10,781,140, 2020
72020
Pervious composite materials, methods of production and uses thereof
J Kuppler, D Patten, D Ravikumar, O Deo, V Atakan
US Patent 9,938,189, 2018
72018
White carbonatable calcium silicate-based cements and methods of preparation and use thereof
S Sahu, S Quinn, A Seth, J Bryant, D Ravikumar
US Patent App. 15/449,736, 2017
42017
Technologies that reduce water use in cement and concrete help global industry address mounting concerns of water scarcity
V Atakan, J Jain, D Ravikumar, L McCandlish, N DeCristofaro
Solidia Technologies, 2016
32016
Water savings in concrete made from solidia cement™
V Atakan, J Jain, D Ravikumar, L McCandlish, N DeCristofaro
no. February, 1-6, 2014
32014
Evaluating the use of accelerated test methods for chloride transport in alkali activated slag concretes using electrical impedance and associated models
N Neithalath, D Ravikumar
Geopolymer Binder Systems, 2013
32013
Carbonatable calcium silicate compositions and methods thereof
V Atakan, S Quinn, S Sahu, D Ravikumar, N DeCristofaro
US Patent 10,611,690, 2020
22020
Carbonatable calcium silicate-based cements and concretes having mineral additives, and methods thereof
AC Tas, D Ravikumar, JE Bryant
US Patent App. 15/928,881, 2018
22018
The system can't perform the operation now. Try again later.
Articles 1–20