Microwave sintering equipment can be used in a variety of high-quality ceramic sintering, lithium cobalt oxide, silicon nitride, silicon carbide, aluminum oxide, aluminum nitride, zirconia, magnesium, aluminum, zinc, kaolin, cobalt sulfate, cobalt oxalate, five vanadium oxide, gypsum and gypsum sintering electronic ceramic components: PZT piezoelectric ceramic varistors.
At the same experiments also show that when the high pressure of the specimen tightly, spread rate conventional heating caused by the combustion wave is greatly reduced, even for ” self-extinguishing” and can not be spontaneous. However, the use of microwave irradiation, the reaction temperature increases due to the result of the material itself absorbs the microwave energy, as long as the microwave energy source continuously administered, the sample temperature will quickly reach the ignition temperature. Once the reaction was initiated, and the heat released to promote sample temperature further increases to reach the combustion temperature, the ability to absorb microwave radiation, the sample also increased, which ensures that the reaction can be maintained at a high enough temperature. Until the reaction was complete. Microwave combustion synthesis or microwave sintering is a process that can be controlled. This means that we can based on the nature of the product requirements, through a series of parameter adjustments, to artificially control the combustion wave propagation. This is a traditional technique in a significant advantage compared to microwave combustion synthesis. Microwave power adjustment, can be directly adjustable power microwave source to control the sample absorption (or dissipation) of microwave energy.

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