Chaitanya Vijay |
Estimation of burning charateristics of AP/HTPB composite solid propellant using a sandwich model |
Combustion and Flame |
2020 |
doi.org/10.1016/j.ccombustflame.2019.08.004 |
Chaitanya Vijay and P. A. Ramakrishna, "Estimation of burning charateristics of AP/HTPB composite solid propellant using a sandwich model" Combustion and Flame, (2020), doi: https://doi.org/10.1016/j.combustflame.2020.04.006 |
Kumar Nagendra |
Combustion of Ammonium Perchlorate monopropellant: Role of heat Loss |
Combustion and Flame |
2019 |
doi.org/10.1016/j.ccombustflame.2019.08.004 |
Kumar Nagendra, Chaitanya Vijay, Mahesh Ingole and P. A. Ramakrishna, "Combustion of Ammonium Perchlorate monopropellant: Role of heat Loss" Combustion and Flame, (2019), doi: https://doi.org/10.1016/j.combustflame.2019.08.004 |
Kumar Nagendra |
Effect of ageing on combustion of ammonium perchlorate with copper chromite additive |
Combustion and Flame |
2019 |
doi.org/10.1016/j.ccombustflame.2019.11.008 |
R. Perumal, Kumar Nagendra and P. A. Ramakrishna, "Effect of ageing on combustion of ammonium perchlorate with copper chromite additive" Combustion and Flame, (2019), doi: https://doi.org/10.1016/j.combustflame.2019.11.008 |
Kumar Nagendra |
Experimental studies on low pressure deflagration limit of ammonium perchlorate with additives |
Combustion and Flame |
2019 |
doi.org/10.1016/j.ccombustflame.2019.06.011 |
Kumar Nagendra, Mahesh Ingole and P. A. Ramakrishna, "Experimental studies on low pressure deflagration limit of ammomium perchlorate with additives" Combustion and Flame, (2019), doi: https://doi.org/10.1016/j.combustflame.2019.06.011 |
Kumar Nagendra |
Binder Melt: Quantifiaction Using SEM/EDS and its Effects on Composite Solid Propellant Combustion |
Proceedings of the Combustion Institute |
2018 |
doi.org/10.1016/j.proci.2018.06.003 |
Kumar Nagendra, Chaitanya Vijay and P. A. Ramakrishna, "Binder Melt: Quantifiaction Using SEM/EDS and its Effects on Composite Solid Propellant Combustion" Proceedings of the Combustion Institute, (2018), in press doi: https://doi.org/10.1016/j.proci.2018.06.003 |
Gaurav Marothiya |
Utilization of Mechanically Activated Aluminium in Hybrid Rockets |
Journal of Propulsion and Power |
2018 |
doi.org/10.2514/1.B36846 |
Gaurav Marothiya and P. A. Ramakrishna, "Utilization of Mechanically Activated Aluminium in Hybrid Rockets" Journal of Propulsion and Power, (2018), doi: https://doi.org/10.2514/1.B36846 |
Gaurav Rajoriya |
Thermal Conductivity Estimation of High Solid Loading Particulate Composites: A Numerical Approach |
International Journal of Thermal Sciences |
2018 |
doi.org/10.1016/j.ijthermalsci.2018.01.023 |
Gaurav Rajoriya, Chaitanya Vijay and P. A. Ramakrishna, "Thermal Conductivity Estimation of High Solid Loading Particulate Composites: A Numerical Approach" International Journal of Thermal Sciences, (2018) 127 pp. 252-265 doi: https://doi.org/10.1016/j.ijthermalsci.2018.01.023 |
Gaurav Marothiya
|
Effects on Burn rates of Pellets and Propellants with Catalyst-Embeded AP |
Journal of Propulsion and Power |
2017 |
doi.org/10.2514/1.B36776 |
Gaurav Marothiya, Chaitanya Vijay, K. Ishita and P. A. Ramakrishna, "Effects on Burn rates of Pellets and Propellants with Catalyst-Embeded AP" Journal of Propulsion and Power, (2017), 34, pp. 969-974. doi:https://doi.org/10.2514/1.B36776 |
Nagendra Kumar
|
Extinction of AP Monopropellant by Rapid Depressurization: Compuational and Experimental Studies |
Combustion and Flame |
2017 |
doi.org/10.1016/j.combustflame.2017.05.030 |
Nagendra Kumar, Y. Raj Alexander and P. A. Ramakrishna, "Extinction of AP Monopropellant by Rapid Depressurization: Compuational and Experimental Studies," Combustion and Flame, (2017) 184 pp. 90-100 doi: 10.1016/j.combustflame.2017.05.030 |
Gaurav Marothiya
|
An Effective Method to Embed Catalyst on AP and its Effecton the Burn Rates of Aluminized Composite Solid Propellant |
Combustion and Flame |
2017 |
doi.org/10.1016/j.combustflame.2017.04.01 |
Gaurav Marothiya, Chaitanya Vijay, K. Ishita and P. A. Ramakrishna, "An Effective Method to Embed Catalyst on AP and its Effecton the Burn Rates of Aluminized Composite Solid Propellant" Combustion and Flame, (2017) 182 pp. 114-121 doi: 10.1016/j.combustflame.2017.04.01 |
Gaurav Marothiya
|
Enhancement of Aluminium Reactivity to Achieve High Burn Rate for an End Burning Rocket Motor |
Propellants, Explosives and Pyrotechniques |
2017 |
doi.org/10.1002/prep.201600304 |
Gaurav Marothiya and P. A. Ramakrishna, "Enhancement of Aluminium Reactivity to Achieve High Burn Rate for an End Burning Rocket Motor," Propellants, Explosives and Pyrotechniques, doi: 10.1002/prep.201600304 |
Nikunj Rathi
|
Attaining hypersonic flight with aluminum based fuel rich propellant |
Journal of Propulsion and Power |
2017 |
doi.org/10.2514/1.B36463 |
Nikunj Rathi and P. A. Ramakrishna, "Attaining hypersonic flight with aluminum based fuel rich propellant", Journal of Propulsion and Power, (2017) doi: 10.2514/1.B36463 |
Gaurav Marothiya
|
Effect of Mechanical Activation of High Specific Surface Area Aluminium with PTFE on Composite Solid Propellant |
Combustion and Flame |
2016 |
doi.org/10.1016/j.combustflame.2016.01.019 |
Gaurav Marothiya and P. A. Ramakrishna, "Effect of Mechanical Activation of High Specific Surface Area Aluminium with PTFE on Composite Solid Propellant", Combustion and Flame, (2016) 166 pp. 203-215 doi:10.1016/j.combustflame.2016.01.019 |
Kumar Ishitha
|
Burning Rates Studies: Potassium Doped Ammonium Perchlorate with Other Burn Rate Modifiers |
Journal of Propulsion and Power |
2016 |
|
Kumar Ishitha and P. A. Ramakrishna, "Burning Rates Studies: Potassium Doped Ammonium Perchlorate with Other Burn Rate Modifiers", Journal of Propulsion and Power, (2016) 32 (5) pp. 1104-1109 |
Rajiv Kumar
|
Studies on EVA Based Wax Fuel for Launch Vehicle Applications |
Propellants, Explosives and Pyrotechniques |
2016 |
|
Rajiv Kumar and P. A. Ramakrishna, "Studies on EVA Based Wax Fuel for Launch Vehicle Applications", Propellants, Explosives and Pyrotechniques, (2016) 41 (2) pp. 295-303 |
Kumar Ishitha
|
Reducing Agglomeration of Ammonium Perchlorate using Activated Charcoal |
Propellants, Explosives and Pyrotechniques |
2015 |
|
Kumar Ishitha and P. A. Ramakrishna, "Reducing Agglomeration of Ammonium Perchlorate using Activated Charcoal", Propellants, Explosives and Pyrotechniques, (2015) 40 (6) pp. 838-847 |
Rajiv Kumar
|
Enhancement of Hybrid Fuel Regression Rate Using a Bluff Body |
Journal of Propulsion and Power |
2014 |
|
Rajiv Kumar and P A Ramakrishna, "Enhancement of Hybrid Fuel Regression Rate Using a Bluff Body, Journal of Propulsion and Power (2014) 30 pp. 909-916 |
Rajiv Kumar
|
Effect of Protrusion on the Enhancement of Regression Rate |
Aerospace Science and Technology |
2014 |
|
Rajiv Kumar and P A Ramakrishna, "Effect of Protrusion on the Enhancement of Regression Rate", Aerospace Science and Technology, (2014) 39 pp. 169-178 |
Rajiv Kumar
|
Measurement of Regression Rate in Hybrid Rocket Using Combustion Chamber Pressure |
Acta Astronautica |
2014 |
|
Rajiv Kumar and P A Ramakrishna, "Measurement of Regression Rate in Hybrid Rocket Using Combustion Chamber Pressure", Acta Astronautica, (2014) 103 pp. 226-234 |
Kumar Ishitha
|
Activated Charcoal: As Burn Rate Modifier and Its Mechanism of Action in Non-Metalized Composite Solid Propellants |
International Journal of Advances in Engineering Sciences and Applied Mathematics |
2014 |
|
Kumar Ishitha and P A Ramakrishna, "Activated Charcoal: As Burn Rate Modifier and Its Mechanism of Action in Non-Metalized Composite Solid Propellants", International Journal of Advances in Engineering Sciences and Applied Mathematics, (2014) 6 (1) pp. 76-95 |
Kumar Ishitha
|
Studies on the Role of Iron Oxide and Copper Chromite in Solid Propellant Combustion |
Combustion and Flame |
2014 |
|
Kumar Ishitha and P A Ramakrishna, "Studies on the Role of Iron Oxide and Copper Chromite in Solid Propellant Combustion", Combustion and Flame, (2014) 161 (10) pp. 2717-2728 |
Kumar Ishitha
|
Potassium Doped Ammonium Perchlorate - Part II |
Journal of Propulsion and Power |
2014 |
|
Kumar Ishitha and Ramakrishna P.A., "Potassium Doped Ammonium Perchlorate - Part II", (2014) Journal of Propulsion and Power 30 (4) pp. 876-882 |
Kumar Ishitha
|
Potassium Doped Ammonium Perchlorate - Part I |
Journal of Propulsion and Power |
2014 |
|
Kumar Ishitha and Ramakrishna P.A., "Potassium Doped Ammonium Perchlorate - Part I", (2014) Journal of Propulsion and Power 30 (2) pp. 277-284 |
Verma S
|
Dependence of density and burning rate of composite solid propellant on mixer size |
Acta Astronautica |
2014 |
|
Verma S. and Ramakrishna P.A., "Dependence of density and burning rate of composite solid propellant on mixer size", (2014) Acta Astronautica 93 pp. 130-137 |
P A Ramakrishna
|
Experimental investigation of temperature separation in a counter flow vortex tube |
ASME Journal of Heat Transfer |
2014 |
|
P A Ramakrishna, M Ramakrishna and R Manimaran, "Experimental investigation of temperature separation in a counter flow vortex tube", ASME Journal of Heat Transfer, (2014) 136 (8) |
Rajiv Kumar
|
Issues Related to the Measurement of Regression Rate of Fast-Burning Hybrid Fuels |
Journal of Propulsion and Power |
2013 |
|
Rajiv Kumar and Ramakrishna P.A., "Issues Related to the Measurement of Regression Rate of Fast-Burning Hybrid Fuels", Journal of Propulsion and Power, (2013) 29 (5) pp. 1114-1121 |
Verma S
|
Effect of specific surface area of aluminum on composite solid propellant burning |
Journal of Propulsion and Power |
2013 |
|
Verma S. and Ramakrishna P.A., "Effect of specific surface area of aluminum on composite solid propellant burning", Journal of Propulsion and Power (2013) 29 (5) pp.1200-1206 |
Verma S
|
Investigations on activated charcoal, a burn-rate enhancer in composite solid propellant |
Journal of Propulsion and Power |
2013 |
|
Verma S. and Ramakrishna, P.A., "Investigations on activated charcoal, a burn-rate enhancer in composite solid propellant", (2013) Journal of Propulsion and Power 29 (5) pp. 1214-1219. |
Sumit Verma
|
Activated Charcoal - A Novel Burn Rate Enhancer of Aluminized Composite Propellants |
Combustion and Flame |
2010 |
|
Sumit Verma and P. A. Ramakrishna, "Activated Charcoal - A Novel Burn Rate Enhancer of Aluminized Composite Propellants", Combustion and Flame, (2010) 157 (6) pp. 1202-1210 |
P. A. Ramakrishna
|
Importance of lateral momentum equation to the modeling of sandwich propellant combustion |
Proceedings of the Combustion Institute |
2009 |
|
P. A. Ramakrishna, "Importance of lateral momentum equation to the modeling of sandwich propellant combustion", Proceedings of the Combustion Institute, (2009) 32 pp. 2139-2146 |
P. A. Ramakrishna
|
Innovative Design to Improve the Power Density of Solid Oxide Fuel cell |
Journal of Power Sources |
2006 |
|
P. A. Ramakrishna, Shi Yang and C. H. Sohn, "Innovative Design to Improve the Power Density of Solid Oxide Fuel cell", Journal of Power Sources, 2006 158 pp. 378-384 |
Shi Yang
|
Issues Related to the Modeling of Solid Oxide Fuel Cell Stacks |
Journal of Mechanical Science and Technology |
2006 |
|
Shi Yang, P. A. Ramakrishna and C. H. Sohn, "Issues Related to the Modeling of Solid Oxide Fuel Cell Stacks", Journal of Mechanical Science and Technology, 2006 20 (3), pp. 391-398 |
Ramakrishna P. A
|
Revisiting the Modeling of Ammonium Perchlorate Combustion: Development of an Unsteady Model |
Journal of Propulsion and Power |
2006 |
|
Ramakrishna P. A., Paul P. J., and Mukunda H. S., "Revisiting the Modeling of Ammonium Perchlorate Combustion: Development of an Unsteady Model", Journal of Propulsion and Power, (2006) 22 (3) pp. 661-668 |
Ramakrishna P. A
|
Combustion of Sandwich Propellant at Low Pressures |
Proceedings of the Combustion Institute |
2005 |
|
Ramakrishna, P. A., Paul, P. J., Mukunda H. S., and C. H. Sohn, "Combustion of Sandwich Propellant at Low Pressures", Proceedings of the Combustion Institute, (2005) 30 pp. 2097-2014 |
P.A. Ramakrishna
|
Sandwich Propellant Combustion: Modeling and Experimental Comparison |
Proceedings of the Combustion Institute |
2003 |
|
Ramakrishna P. A., Paul, P. J., and Mukunda H. S., "Sandwich Propellant Combustion: Modeling and Experimental Comparison", Proceedings of the Combustion Institute, (2003) 29 pp. 2963-2973 |