It also works as a batch production furnace, offering repeatable, accurate and recorded processing. Boasting excellent thermal uniformity and an economical top-loading design, it is widely used in universities, colleges and laboratories globally.
This versatile top-loading laboratory furnace supports material/process research, testing and development with fully programmable atmospheric conditions, reaching up to 2500°C. It also works as a batch production furnace, offering repeatable, accurate and recorded processing. Boasting excellent thermal uniformity and an economical top-loading design, it is widely used in universities, colleges and laboratories globally.
Parameter | Specifications |
Maximum Temperature | 2500°C (4532 °F) (compatible with inert gas, vacuum, Hydrogen or Ammonia) |
Operating Pressure | 1×10-7 Torr (mbar) to 2 P.S.I.G. (0.14 bar) |
Temperature Uniformity | Excellent |
Hot Zone | Multiple sizes and materials available |
Control System | HMI with data-acquisition |
Design | Ergonomic and space-saving |
Temperature Control Method | TC (Thermocouple) and pyrometer |
Pumping System | Turbo pumping system |
Optional Feature | Wet Hydrogen system available |
Loading & Footprint | Top loading with compact footprint |
Power | 40 kVA, 380-480V/3/50-60 Hz (other voltages available) |
Chamber and hot zone | The cylindrical top-loading hot zone chamber is double-walled stainless steel, welded and polished for vacuum integrity and ergonomics. It has multiple ports for sensors, vacuum, gas, power and a sight window. The standard hot zone uses Tungsten/Molybdenum (other materials available) with 7 shield layers; specimens rest on a tungsten hearth. Water-cooled heating element power connections are secluded at the chamber bottom |
Applications:
Annealing
Brazing
Binding
Ceramics Processing
Compound Synthesis
Debinding, Degassing, Dewaxing
Diffusion Bonding
Fiber Drawing (Graphite, SiC)
Nano-technology
Powder Metallurgy
Reaction Bonding
This versatile top-loading laboratory furnace supports material/process research, testing and development with fully programmable atmospheric conditions, reaching up to 2500°C. It also works as a batch production furnace, offering repeatable, accurate and recorded processing. Boasting excellent thermal uniformity and an economical top-loading design, it is widely used in universities, colleges and laboratories globally.
Parameter | Specifications |
Maximum Temperature | 2500°C (4532 °F) (compatible with inert gas, vacuum, Hydrogen or Ammonia) |
Operating Pressure | 1×10-7 Torr (mbar) to 2 P.S.I.G. (0.14 bar) |
Temperature Uniformity | Excellent |
Hot Zone | Multiple sizes and materials available |
Control System | HMI with data-acquisition |
Design | Ergonomic and space-saving |
Temperature Control Method | TC (Thermocouple) and pyrometer |
Pumping System | Turbo pumping system |
Optional Feature | Wet Hydrogen system available |
Loading & Footprint | Top loading with compact footprint |
Power | 40 kVA, 380-480V/3/50-60 Hz (other voltages available) |
Chamber and hot zone | The cylindrical top-loading hot zone chamber is double-walled stainless steel, welded and polished for vacuum integrity and ergonomics. It has multiple ports for sensors, vacuum, gas, power and a sight window. The standard hot zone uses Tungsten/Molybdenum (other materials available) with 7 shield layers; specimens rest on a tungsten hearth. Water-cooled heating element power connections are secluded at the chamber bottom |
Applications:
Annealing
Brazing
Binding
Ceramics Processing
Compound Synthesis
Debinding, Degassing, Dewaxing
Diffusion Bonding
Fiber Drawing (Graphite, SiC)
Nano-technology
Powder Metallurgy
Reaction Bonding
