Add to ORKGThe effect of anatase, rutile, and amorphous TiO2 nanoparticles on the combustion of solid rocket propellant was investigated. Each additive increased the burning rate of propellant strands by 30%. Typical fast-burning propellants are unstable due to oversensitivity to pressure variations, but the anatase additive yielded propellants with high yet stable burning rates over a broad pressure range. Anatase nanoparticles also catalyzed the high-temperature decomposition of ammonium perchlorate, a key component of solid propellant
Adding nanoparticles as a catalyst to solid propellant fuel to increase and enhance burn rates of th...
Experimental studies on the burning of nanoaluminum-based solid rocket propellants are carried out. ...
Presented in this thesis is a study of the effects of nano-sized particles used as a catalytic addit...
The effect of anatase, rutile, and amorphous TiO 2 nanoparticles on the combustion of solid rocket p...
Adding nanoparticles as a catalyst to solid propellant fuel to increase and enhance burn rates of th...
Advancements in chemical synthesis techniques allow for the production of improved solid rocket prop...
Plateau propellants exhibit burning rate curves that do not follow the typical linear relationship b...
Recent advancements in chemical synthesis techniques have allowed for the production of improved sol...
The use of catalytic nanoparticle additives in composite solid propellant as burning rate modifiers ...
This thesis examines the effects of nanoparticle, metal-oxide additives on the burning rate of compo...
Plateau propellants exhibit burning rate curves that do not follow the typical linear relationship b...
Nano-aluminized propellants are investigated and compared with corresponding micro-aluminized propel...
The use of catalytic nanoparticle additives in composite solid propellant as burning rate modifiers ...
Recent advances in nanostructured fuels and oxidizers may lead to high-performance energetic materia...
Adding nanoparticles as a catalyst to solid propellant fuel to increase and enhance burn rates of th...
Experimental studies on the burning of nanoaluminum-based solid rocket propellants are carried out. ...
Presented in this thesis is a study of the effects of nano-sized particles used as a catalytic addit...
The effect of anatase, rutile, and amorphous TiO 2 nanoparticles on the combustion of solid rocket p...
Adding nanoparticles as a catalyst to solid propellant fuel to increase and enhance burn rates of th...
Advancements in chemical synthesis techniques allow for the production of improved solid rocket prop...
Plateau propellants exhibit burning rate curves that do not follow the typical linear relationship b...
Recent advancements in chemical synthesis techniques have allowed for the production of improved sol...
The use of catalytic nanoparticle additives in composite solid propellant as burning rate modifiers ...
This thesis examines the effects of nanoparticle, metal-oxide additives on the burning rate of compo...
Plateau propellants exhibit burning rate curves that do not follow the typical linear relationship b...
Nano-aluminized propellants are investigated and compared with corresponding micro-aluminized propel...
The use of catalytic nanoparticle additives in composite solid propellant as burning rate modifiers ...
Recent advances in nanostructured fuels and oxidizers may lead to high-performance energetic materia...
Adding nanoparticles as a catalyst to solid propellant fuel to increase and enhance burn rates of th...
Experimental studies on the burning of nanoaluminum-based solid rocket propellants are carried out. ...
Presented in this thesis is a study of the effects of nano-sized particles used as a catalytic addit...