L. Galfetti scite author profile

Several aluminum nanopowders were examined and compared with the final goal to evaluate their application in solid rocket propulsion. A detailed investigation of pre-burning properties by the Brunauer-Emmet-Teller method, electron microscopy, X-ray diffraction, and X-ray photoelectron spectroscopy was carried out. Ballistic properties and the combustion mechanism of several aluminized propellant formulations were investigated. In particular, aggregation and agglomeration of metal particles at and near the burning surface were analyzed by high-speed high-resolution color digital video recordings. All tested nano-powders are of Russian production; their physical characterization was carried out at the Istituto Donegani (Novara, Italy); ballistic studies were performed at the Solid Propulsion Laboratory (Milano, Italy) using laboratory and, for comparison, industrial composite propellants based on ammonium perchlorate as an oxidizer. Results obtained under a fair variety of operating conditions typical of rocket propulsion indicate, for increasing nano-Al mass fraction or decreasing nano-Al size, larger steady burning rates with essentially the same pressure sensitivity. While aggregation and agglomeration phenomena still occur, their significance may be reduced by using nano-Al instead of micro-Al.

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Aging of HTPB/Al/AP Rocket Propellant Formulations Investigated by DMA Measurements

Cerri¹,

Bohn

Menke

et al. 2013

Propellants Explo Pyrotec

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Three HTPB-based rocket propellant formulations containing ammonium perchlorate and aluminum particles, with different aluminum content and particle size, have been manufactured. The study has focused on the change of mechanical properties with aging time by using dynamic mechanical analysis (DMA). Therefore, propellant formulations underwent an accelerated aging program, in air (RH<10 %), between 60 °C and 90 °C with aging time adjusted to a thermal equivalent load of 15 to 20 years at 25 °C. DMA investigations revealed distinct changes in the shape of the loss factor curve. These curves were modeled with three exponentially modified Gaussian (EMG) functions in order to get the molecular interpretation of the involved aging phenomena by separating the binder fractions with different mobility. Aging of propellant formulations can be followed by considering only two parameters: the areas of the second and third loss factor transition peaks (A2, A3), and the corresponding maximum temperature values of the assigned Gauss peaks (Tc2, Tc3)

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Nano-aluminum as energetic material for rocket propellants

Meda

Marra

Galfetti

et al. 2007

Materials Science and Engineering: C

162

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Pre and post-burning analysis of nano-aluminized solid rocket propellants

Galfetti

DeLuca

Severini

et al. 2007

Aerospace Science and Technology

142

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Nanoparticles for solid rocket propulsion

Galfetti¹,

Luca²,

Severini³

et al. 2006

J. Phys.: Condens. Matter

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The characterization of several differently sized aluminium powders, by BET (specific surface), EM (electron microscopy), XRD (x-ray diffraction), and XPS (x-ray photoelectron spectroscopy), was performed in order to evaluate their application in solid rocket propellant compositions. These aluminium powders were used in manufacturing several laboratory composite solid rocket propellants, based on ammonium perchlorate (AP) as oxidizer and hydroxilterminated polybutadiene (HTPB) as binder. The reference formulation was an AP/HTPB/Al composition with 68/17/15% mass fractions respectively.

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L. Galfetti

Burning of Nano-Aluminized Composite Rocket Propellants

Aging of HTPB/Al/AP Rocket Propellant Formulations Investigated by DMA Measurements

Nano-aluminum as energetic material for rocket propellants

Pre and post-burning analysis of nano-aluminized solid rocket propellants

Nanoparticles for solid rocket propulsion

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