The split heating module allows either easy positioning of the work tube or positioning around reactors which have fixed end flanges. The split design may also allow faster cooling of samples. The control thermocouple is fitted in the centre of the heating zone. Cooling channels are engineered into the housing to aid with convection cooling of the outer case. The two furnace chamber halves consist of high grade insulation plates with vertically hanging MoSi2 heating elements. A safety switch protects the operator by switching off the heating elements once the furnace is opened. The tube furnace is supplied without a stand, allowing customers to build them into their own equipment. Optional ‘L’ stands are available allowing the furnaces to be self supporting. Application Examples annealing, carbonisation, crystal growth, debinding, degassing, drying, hardening, metal injection moulding (MIM), pyrolyses, rapid prototyping, sintering, sublimation, synthesis, tempering Standard features Programmable 3216P1 controller Over-temperature protection Designed for vertical use Accepts work tubes with outer diameters up to 70 mm for use with modified atmosphere Heated lengths of 120, 250 or 500 mm High grade type B thermocouple Low thermal mass ceramic fibre insulation Vertically hanging high quality MoSi2 heating elements Rectangular housing with holes for convection cooling Supplied with separate control box and 3 m cable, plug and socket
Технические характеристики
CharacteristicsFunctionannealing, sintering, quenching, tempering, thermal, carburizing, hardening, sublimation, drying, crystal growthConfigurationchamber, tubularHeat sourceelectricOther characteristicshorizontal, programmable, verticalMaximum temperature
1,600 °C, 1,700 °C (2,912 °F)
Width
600 mm, 700 mm, 800 mm (23.62 in)
Height
700 mm, 800 mm, 1,050 mm, 1,250 mm (27.56 in)
Depth
890 mm, 990 mm (35.04 in)
