Carbolite has developed the CMAT Microwave Assist Technology furnace in collaboration with C-Tech Innovation, a UK specialist in microwave-assisted heating technology
The first model will is a chamber furnace with a maximum operating temperature of 1600C with 22 litre capacity.
In addition to the conventional radiant heat generated by the furnace elements, direct heating microwave power is generated by an industrial 2450MHz magnetron.
Unlike radiant heat, which is conducted from the outer surface of a sample to the interior, microwaves generate heat immediately within the body of the material.
This combined approach produces faster processing rates than both radiant-only and microwave-only systems, and therefore reduces energy usage, throughput times and emissions.
More consistent properties can also be achieved in some materials, including greater strength, improved yield and reduced formation of undesirable phases.
Processors can also take advantage of the selective heating characteristic of microwaves.
The design of the furnaces combines the controllability of the radiant elements with the thermal equalising effect of the microwave heating system.
The controller allows 20-segment programming of both the radiant and the microwave heating, giving users a high degree of flexibility.
Over-temperature protection is also included.
Successful applications for microwave-assisted heating include sintering high-performance ceramics such as zirconia, where benefits include very consistent grain size and rapid cycle times.
