Hybrid method for firing of ceramics
First Claim
1. A method for firing a ceramic material comprising:
- placing the ceramic material in a microwave heating apparatus having a microwave cavity and subjecting the ceramic material to combination of microwave radiation and conventional heat energy according to predetermined time-temperature profile, the time-temperature profile comprising a series of target heating rate temperature setpoints and a series of corresponding core and surface core temperature setpoints with each of the core and surface temperature setpoints being offset from the target heating rate setpoints by a predetermined offset temperature;
continuously measuring the ceramic body core temperature, TC, and the surface temperature TS and controlling the microwave power and the conventional heat in the following manner;
a) the microwave power is adjusted in response difference between the core temperature setpoint and a biased core measured temperature, TBC, the biased core measured temperature calculated according to the following formula, TBC= (xTC+yTS)/(x+y), wherein x is greater than y;
b) the amount of conventional heat is adjusted in response to the difference between the surface temperature setpoint and a biased surface temperature, TBS, the biased surface measured temperature calculated according to the following formula, TBS= (xTS+yTC)/(x+y), wherein x is greater than y;
continuing to deliver and control the microwave power and the conventional heat until the ceramic body has at least reached is sintering soak temperature.
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Abstract
A method of firing ceramic materials involving placing the ceramic material in a microwave heating apparatus having a microwave cavity and subjecting the ceramic material to combination of microwave radiation and conventional heat energy according to predetermined time-temperature profile. The time-temperature profile, ranging from room temperature the sintering soak temperature, comprises a series of target heating rate temperature setpoints and a series of corresponding core and surface temperature setpoints with each of the core and surface temperature setpoints being offset from the target heating rate setpoints a predetermined offset temperature. The method involves continuously measuring the ceramic body core temperature, TC, and the surface temperature TS. Controlling of the microwave power involves adjusting the microwave power in response to a difference between core temperature setpoint and a biased core measured temperature. Controlling of the conventional heat involves adjusting the conventional heat in response to the difference between the surface temperature setpoint and a biased surface temperature. The method involves continuing to deliver and control the microwave power and the conventional heat until the ceramic body has reached is sintering soak temperature.
35 Citations
21 Claims
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1. A method for firing a ceramic material comprising:
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placing the ceramic material in a microwave heating apparatus having a microwave cavity and subjecting the ceramic material to combination of microwave radiation and conventional heat energy according to predetermined time-temperature profile, the time-temperature profile comprising a series of target heating rate temperature setpoints and a series of corresponding core and surface core temperature setpoints with each of the core and surface temperature setpoints being offset from the target heating rate setpoints by a predetermined offset temperature;
continuously measuring the ceramic body core temperature, TC, and the surface temperature TS and controlling the microwave power and the conventional heat in the following manner;
a) the microwave power is adjusted in response difference between the core temperature setpoint and a biased core measured temperature, TBC, the biased core measured temperature calculated according to the following formula, TBC= (xTC+yTS)/(x+y), wherein x is greater than y;
b) the amount of conventional heat is adjusted in response to the difference between the surface temperature setpoint and a biased surface temperature, TBS, the biased surface measured temperature calculated according to the following formula, TBS= (xTS+yTC)/(x+y), wherein x is greater than y;
continuing to deliver and control the microwave power and the conventional heat until the ceramic body has at least reached is sintering soak temperature. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 10, 11)
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9. A method of firing a ceramic body comprising independently controlling the quantities of heat generated in the ceramic body by the microwave energy and the conventional heat, the controlling of the conventional heat and the microwave power comprising measuring the temperature of the core and the surface of the ceramic body and
a) adjusting the microwave power in response to the difference between a preset core temperature setpoint and a biased core temperature, TBC, the biased core measured temperature calculated according to the following formula, TBC= (xTC+yTS)/(x+y), wherein x is greater than y; - and,
b) adjusting the conventional heat output in response to the difference between a preset surface temperature setpoint and a biased surface temperature, TBS, the biased surface measured temperature calculated according to the following formula, TBS=(xTS+yTC)/(x+y), wherein x is greater than y.
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12. A method for firing a ceramic material comprising:
placing the ceramic material in a microwave heating apparatus having a microwave cavity and subjecting the ceramic material to combination of microwave radiation and conventional heat energy according to predetermined time-temperature profile, the time-temperature profile comprising a series of target heating rate temperature setpoints and a series of corresponding core and surface core temperature setpoints with each of the core and surface temperature setpoints being offset from the target heating rate setpoints by a predetermined offset temperature. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21)
Specification