Add to ORKGMicrowave ignited combustion synthesis can be used to achieve complete conversion of reactants and to obtain products with unique microstructures. However, this synthetic route suffers from usually poor reproducibility due to the possible electromagnetic field distribution-related ignition mechanisms. Ignition can occur by the direct heating of the reactants, or by their indirect heating by the use of microwave co-absorbers or due to the possible occurrence of breakdown phenomena. In this work, the effects of microwave ignition in regions of predominant electric or magnetic field is investigated in case of mixtures of powdered metal reactants, one of which is aluminium and the remaining is of ferromagnetic nature. These reactions, when a hi...
The paper discusses the application of pulsed microwave radiation for the modification of crystallin...
Microwave energy has been exploited to ignite combustion synthesis (CS) reactions of properly design...
Microwave energy has been employed in the present work in order to reach ignition of the combustion ...
Combustion synthesis of aluminide intermetallics starting from reactive powders mixtures comprising ...
Due to the interesting combination of lightweight and high refractoriness, Al-based intermetallic co...
The process of Combustion synthesis (CS) is based on the highly exothermic reaction by reactants, wh...
In this work microwaves (MWs) were used to ignite and sustain, the Combustion Synthesis (CS) of micr...
A simplified model of the microwave-assisted combustion synthesis of Ni and Al metal powders to form...
The process of Combustion synthesis (CS) is based on the highly exothermic reaction by reactants,whi...
Aim of this work is to present the results concerning the application of microwave assisted combusti...
Microwave energy has been applied to ignite the combustion synthesis (CS) in Ni + Al (50: 50 at %) p...
The microwave-assisted combustion synthesis of NiAl intermetallics in a single mode applicator has b...
The paper discusses the application of pulsed microwave radiation for the modification of crystallin...
Microwave energy has been exploited to ignite combustion synthesis (CS) reactions of properly design...
Microwave energy has been employed in the present work in order to reach ignition of the combustion ...
Combustion synthesis of aluminide intermetallics starting from reactive powders mixtures comprising ...
Due to the interesting combination of lightweight and high refractoriness, Al-based intermetallic co...
The process of Combustion synthesis (CS) is based on the highly exothermic reaction by reactants, wh...
In this work microwaves (MWs) were used to ignite and sustain, the Combustion Synthesis (CS) of micr...
A simplified model of the microwave-assisted combustion synthesis of Ni and Al metal powders to form...
The process of Combustion synthesis (CS) is based on the highly exothermic reaction by reactants,whi...
Aim of this work is to present the results concerning the application of microwave assisted combusti...
Microwave energy has been applied to ignite the combustion synthesis (CS) in Ni + Al (50: 50 at %) p...
The microwave-assisted combustion synthesis of NiAl intermetallics in a single mode applicator has b...
The paper discusses the application of pulsed microwave radiation for the modification of crystallin...
Microwave energy has been exploited to ignite combustion synthesis (CS) reactions of properly design...
Microwave energy has been employed in the present work in order to reach ignition of the combustion ...