Influence of Short-Pulse Microwave Radiation on Thermochemical Properties Aluminum Micropowder

The thermochemical properties of Al micropowder after exposure to microwave irradiation were investigated. The Al micropowder was exposed to microwave irradiation in air with a frequency of 2.85 GHz, a power density of 8 W/cm , and a pulse duration of 25 ns and 3 µs. The thermochemical parameters of...

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Bibliographic Details
Published in:Materials 2023-01, Vol.16 (3), p.951
Main Authors: Mostovshchikov, Andrei, Gubarev, Fedor, Nazarenko, Olga, Pestryakov, Alexey
Format: Article
Language:English
Subjects:
Aluminum
Analysis
Annealing
Antennas
Composite materials
Electric fields
Heating
Irradiation
Metal particles
Metal powder products
Metal powders
Microwaves
Modelling
Oxidation
Permeability
Pulse duration
Radiation
Rapid prototyping
Short pulses
Sintering (powder metallurgy)
Temperature effects
Thermal analysis
Thermochemical properties
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Summary:The thermochemical properties of Al micropowder after exposure to microwave irradiation were investigated. The Al micropowder was exposed to microwave irradiation in air with a frequency of 2.85 GHz, a power density of 8 W/cm , and a pulse duration of 25 ns and 3 µs. The thermochemical parameters of the irradiated metal powders were determined by the method of thermal analysis at the heating in air. It was found that an increase in the duration of microwave pulses and irradiation time leads to the thermal annealing of the metal particles, and the thermal processes of melting and sintering begin to dominate over non-thermal processes. The specific thermal effect of irradiated Al micropowder oxidation increases from 7744 J/g to 10,154 J/g in comparison with the unirradiated powder. The modeling of thermal heating processes of aluminum (Al) micropowder under the action of pulsed microwave radiation has been performed. It is shown that with an increase in the duration of microwave pulses and irradiation time, a significant heating of the Al micropowder occurs, leading to its melting and sintering. The results of modeling on the action of microwave radiation on the Al micropowder were compared with experimental results.
ISSN:1996-1944
1996-1944
DOI:10.3390/ma16030951