Place an extruded column of a green ceramic, a row of pressed discs or parts, a trough of granular raw material, or a glazed substrate on the D-tube hearth and into the Orton MD Series Gradient Furnace. Set the controller for a specific thermal cycle, them walk away to perform other tasks. After the furnace cools, remove the samples and record their position on the D-tube hearth. Since one end of the row of materials was cooler then the other, you can immediately see how the range of firing temperatures affected the shrinkage, color, porosity, particle size, degree of vitrification, and other ceramic properties that are temperature dependent.
The Orton Model GTF-MD-15 (1,500°C maximum) and GTF-MD-16 (1,600°C maximum) Series Furnaces are a specially designed horizontal tube furnaces with controlled, reproducible, linear thermal gradients of approximately 120°C across a 12" long monitored zone. The Orton Model GTF-MD-15L and GTF-16L Series Furnaces are longer versions with controlled, reproducible, linear thermal gradients of approximately 320°C across a 16" long monitored zone. Thermocouples on 2" centers monitor the temperatures along the gradient zone, so the temperature of the material at any position along the D-tube hearth is known. Visual or post firing analyses of sections taken from the fired material at any position along the D-tube hearth can be measured, recorded, and studied as a function of temperature.
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The Orton GTF-MD Series Furnace is a specially designed horizontal tube furnace with a controlled, reproducible, approximately linear thermal gradient across a 12" or 16" long monitored zone. |
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The furnace is a rectangular, metal shell structure that houses the refractory fiber insulation and four molybdenum disilicide heating elements that surround one end of the 3” ID ceramic heating chamber tube. The samples to be fired are placed on the top of the 2.5” wide high alumina D-tube hearth, which rests on the bottom of the ceramic heating chamber tube. Type “S” thermocouples are spaced on 2” centers along the monitored zone and extend vertically through the top of the heating chamber tube. Two specially shaped IFB end plugs are included to cover both ends of the furnace. |
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The furnace temperature is controlled by the Universal Temperature Control Console (UTC). The UTC contains the user programmable, multi-segment PID controller, the phase-angle-fired SCR solid state power module, ammeter, ON/OFF power switch and appropriate electrical receptacles. The PID controller uses the thermocouple at the hot end of the furnace for control, so the monitored gradient falls from this control temperature. |
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Electrical power from the UTC runs through the included step-down transformer and on to the molybdenum disilicide heating elements. |
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The Temperature Display Cabinet contains a digital panel display, rotary selector switch and appropriate electrical receptacles to display the temperatures of the other thermocouples along the length of the monitored zone. The system includes all interconnecting cables and instruction manual. The Temperature Display Cabinet requires 120 VAC, 15-amp power. The UTC requires 240 VAC, 20-amp, 50/60 hertz input power. |
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