| 1 |
Analysis of aluminum particle combustion in a downward burning solid rocket propellant
Griego C, Yilmaz N, Atmanli A
Fuel, 237, 405, 2019 |
| 2 |
Sensitivity analysis and uncertainty quantification on aluminum particle combustion for an upward burning solid rocket propellant
Griego C, Yilmaz N, Atmanli A
Fuel, 237, 1177, 2019 |
| 3 |
Ignition and combustion of a single aluminum particle in hot gas flow
Feng YC, Xia ZX, Huang LY, Ma LK
Combustion and Flame, 196, 35, 2018 |
| 4 |
The formation of (Al2O3)n clusters as a probable mechanism of aluminum oxide nucleation during the combustion of aluminized fuels: Numerical analysis
Savel'ev AM, Starik AM
Combustion and Flame, 196, 223, 2018 |
| 5 |
Study of aluminum particle combustion in solid propellant plumes using digital in-line holography and imaging pyrometry
Chen Y, Guildenbecher DR, Hoffmeister KNG, Cooper MA, Stauffacher HL, Oliver MS, Washburn EB
Combustion and Flame, 182, 225, 2017 |
| 6 |
On modeling the diffusion to kinetically controlled burning limits of micron-sized aluminum particles
Bojko BT, DesJardin PE, Washburn EB
Combustion and Flame, 161(12), 3211, 2014 |
| 7 |
Characterization of a gas burner to simulate a propellant flame and evaluate aluminum particle combustion
Jackson M, Pantoya ML, Gill W
Combustion and Flame, 153(1-2), 58, 2008 |
| 8 |
Fast reactions with nano- and micrometer aluminum: A study on oxidation versus fluorination
Watson KW, Pantoya ML, Levitas VI
Combustion and Flame, 155(4), 619, 2008 |
| 9 |
The simulation of the combustion of micrometer-sized aluminum particles with steam
Washburn EB, Trivedi JN, Catoire L, Beckstead MW
Combustion Science and Technology, 180(8), 1502, 2008 |
