Results 81 to 90 of about 639 (160)

Fabrication and energetic characterization of micro and nano sized Al/CuO core-shell particles [PDF]

, 2019
Thermite is one type of energetic material which could release a large amount of heat through an oxidation-reduction reaction. Thermite material has a lot of application in joining, metal refining and propulsion.
Zhang, Yiqi
core  

Synthesis, Characterization, and Application of Nanothermites for Joining [PDF]

, 2013
Thermite reactions were well studied in the past few decades; however, implementation of these reactions with nanoscale components is a new interest for today’s researchers both for military and civil industries.
Bohlouli Zanjani, Golnaz
core  

Structure-Function Relationships of Oxidizers for Fuel Oxidation [PDF]

, 2018
Nanothermite is a class of composite that combines nanoscale fuel and metal oxide to allow for the rapid release of large amounts of energy through redox reaction. The use of nanomaterials has been illustrated to increase reactivity by multiple orders of
Wang, Xizheng
core   +1 more source

Fluid dynamic modeling of nano-thermite reactions [PDF]

, 2014
This paper presents a direct numerical method based on gas dynamic equations to predict pressure evolution during the discharge of nanoenergetic materials.
Horie, Yasuyuki, Jenkins, Charles M., Martirosyan, Karen S., Zyskin, Maxim   +3 more
core   +1 more source

Continuum Modelling of Al/CuO Nanothermite Pellet Combustion [PDF]

, 2020
Nanothermite mixtures are made up of nano-sized metallic fuel and inorganic oxidizer components. As this solid mixture represents a metastable intermolecular composite, an increase in nanothermite temperature can initiate a highly exothermic reaction. As
Epps, Joseph
core  

Electrospray Nested Energetic Cells from Nanothermite with MoO₃ Nanostrips: Reactivity, Sensitivity and Combustion Performance

Applied Sciences
Nanothermites have attracted great attention over the last two decades for their superior performance in heat release and pressure wave generation. The shape of the oxidizer and the assembly structure could significantly influence the performance.
Yaru Li, Hui Ren, Quanmin Xie
doaj   +1 more source

Nanothermite multicouche Al/CuO, caractérisation et application [PDF]

, 2013
Les matériaux énergétiques sont une classe de matériaux capables de libérer de l'énergie dans les conditions d'utilisations. Notre laboratoire a été le premier dans les années 1995 à proposer l'intégration de matériaux énergétiques dans des micro micro ...
Bahrami, Mohammadmahdi
core  

Nanomatériaux énergétiques sur puce : élaboration, modélisation et caractérisation [PDF]

, 2010
Ce travail concerne le développement de procédés d'intégration de couches énergétiques de type thermite (constituées d'un oxyde et d'un métal, généralement Al) dans les microsystèmes pour la réalisation de microsources de température pour des ...
Petrantoni, Marine
core   +1 more source

SYNTHESIS AND CHARACTERIZATIONS OF OXIDIZERS FOR BIOCIDAL NANOENERGETIC APPLICATIONS [PDF]

, 2013
Nanoenergetic materials have been shown to have reactive properties superior to traditional energetic materials since the nanoscale enables more intimate mixing of fuel and oxidizer to reduce the heat and mass transport limitations. The growing threat of
FENG, JINGYU
core  

Nanoenergetic Composites with Fluoropolymers: Transition from Powders to Structures. [PDF]

Molecules, 2022
Pisharath S, Ong YJ, Hng HH.
europepmc   +1 more source