Add to ORKGAim of this work is to present the results concerning the application of microwave assisted combustion synthesis (MACS) approach in the production of different kind of cermets and intermetallic matrix composite (IMC). Combustion synthesis allows taking advantages from the heat generated from exothermic reactions, which can derive from the synthesis of the intermetallic matrix, of the reinforcement, or both. Microwaves were used to ignite such combustion reactions exploiting their heating selectivity. The use of a single mode applicator allowed also investigating any "specific" microwave effects ascribable to separate electric and magnetic fields
Microwave heating fundamentally differs from other heating techniques as the consequence of its uniq...
Microwave energy has been employed in the present work in order to reach ignition of the combustion ...
An overview of the synthesis of materials under microwave irradiation has been presented based on th...
In this work microwaves (MWs) were used to ignite and sustain, the Combustion Synthesis (CS) of micr...
Due to the interesting combination of lightweight and high refractoriness, Al-based intermetallic co...
Microwave energy has been exploited to ignite combustion synthesis (CS) reactions of properly design...
Combustion synthesis (CS) is a materials manufacturing technique, which gained increased attention b...
Combustion synthesis of aluminide intermetallics starting from reactive powders mixtures comprising ...
compaction of intermetallics-based functionally graded materials (FGMs) is presented. Numerical simu...
Microwave energy has been applied to ignite the combustion synthesis (CS) in Ni + Al (50: 50 at %) p...
Combustion synthesis (CS) of different functionally graded materials (FGMs) based on intermetallic a...
A simplified model of the microwave-assisted combustion synthesis of Ni and Al metal powders to form...
Microwave ignited combustion synthesis can be used to achieve complete conversion of reactants and t...
Microwave (MW) irradiation at 2.45 GHz is a rapid and efficient way to ignite different kind of high...
Microwave heating fundamentally differs from other heating techniques as the consequence of its uniq...
Microwave energy has been employed in the present work in order to reach ignition of the combustion ...
An overview of the synthesis of materials under microwave irradiation has been presented based on th...
In this work microwaves (MWs) were used to ignite and sustain, the Combustion Synthesis (CS) of micr...
Due to the interesting combination of lightweight and high refractoriness, Al-based intermetallic co...
Microwave energy has been exploited to ignite combustion synthesis (CS) reactions of properly design...
Combustion synthesis (CS) is a materials manufacturing technique, which gained increased attention b...
Combustion synthesis of aluminide intermetallics starting from reactive powders mixtures comprising ...
compaction of intermetallics-based functionally graded materials (FGMs) is presented. Numerical simu...
Microwave energy has been applied to ignite the combustion synthesis (CS) in Ni + Al (50: 50 at %) p...
Combustion synthesis (CS) of different functionally graded materials (FGMs) based on intermetallic a...
A simplified model of the microwave-assisted combustion synthesis of Ni and Al metal powders to form...
Microwave ignited combustion synthesis can be used to achieve complete conversion of reactants and t...
Microwave (MW) irradiation at 2.45 GHz is a rapid and efficient way to ignite different kind of high...
Microwave heating fundamentally differs from other heating techniques as the consequence of its uniq...
Microwave energy has been employed in the present work in order to reach ignition of the combustion ...
An overview of the synthesis of materials under microwave irradiation has been presented based on th...