Tube Furnace LTF-B33 is a 1200°C continuous working temperature comprised scientific design tube furnace comes with 810 mm of tube length with 75 mm diameter and 600 mm heated zone. Incorporated with software based PID control with 4 lines LCD display, it offers 1 to 20°C/min of thermal rate. Designed ergonomically with K-type thermocouple and thermal shock resistant tubes, it provides 32 steps heating program with 5 preset programs. With dual shell housing and durable inside lining of light insulating bricks, it is provided with gas inlet and evacuation system option for protective atmosphere.
Type | Scientific |
Program memories | 5 |
Heating program | 32 steps |
Working temperature | 1200°C |
Tube length | 810 mm |
Tube diameter | 75 mm |
Heated zone | 600 mm |
Thermal rate | 1 to 20°C/min |
Homogeneous Hot Zone | 200 mm at ±10°C |
Thermocouple | K-type |
Heating element | Fe-Cr-Al |
Inner insulation material | Ceramic-fibre blanket |
Housing | Steel sheet with epoxy powder coating |
Display | 4 lines |
Maximum current | 12A |
Power | 2500 W |
Dimension (W×D×H) | 794×449×529 mm |
Net weight | 46 kg |
Packaging dimension (W×D×H) | 835×495×688 mm |
Gross weight | 56 kg |
Scientific design tube furnace with 810 mm of tube length with 75 mm diameter and 600 mm heated zone
1200°C continuous working temperature with 1 to 20°C/min of thermal rate
Software based PID control with 4 lines LCD display for precise operation
Designed ergonomically with K-type thermocouple and thermal shock resistant tubes
Steps heating program with custom preset programs
Dual shell housing and durable inside lining of light insulating bricks
Gas inlet and evacuation system option for protective atmosphere
Accurate measurement and temperature control with high precision
Tube furnace is used for purification, coating, drying, hardening or ageing of samples, for annealing, brazing, calcination, degassing, sintering, soldering, sublimation, synthesis, and tempering, thermocouple calibration, in the testing of fuel cells, or in catalyst research.