Double-decked insulation Furnace shell to ensure that the shell is not hot, Furnace temperature distribution uniform, heating rate ≥ 10 ℃/min, with over-current, over-pressure, over-temperature and other multiple Safety protection, temperature control program can be customized settings.
Adopt high aluminum liner and upper and lower left and right 4-sided Heating mode, temperature control accuracy up to +/- 2 ℃, Furnace volume 16L, with over-temperature alarm and automatic cut-off function, support intelligent segmented temperature control.
The double-decked Furnace shell insulation design is adopted, and the shell is not hot; the Furnace temperature distribution uniformity is less than +/- 5 ° C, and the heating rate is ≥ 10 ° C/min; it has a nitrogen filling device to slow down oxidation and supports flexible setting of self-made temperature control programs.
The double-decked Furnace shell structure ensures that the shell is not hot, the ceramic fiber Furnace cooperates with multi-sided heating to achieve uniform temperature distribution in the cavity, the heating rate is ≥ 10 ℃/min and the temperature control accuracy is +/- 2 ℃, and supports self-compiled temperature control programs and a number of Safety protection.
Double-decked Furnace shell insulation design to ensure that the shell is not hot, multi-sided Heating mode to make the Furnace temperature distribution uniform. Temperature control accuracy +/- 2 ℃, heating rate ≥ 10 ℃/min, equipped with K-type Thermocouple and a number of Safety protection functions.
Using high aluminum liner and 4-sided heating design, the maximum temperature is 1200 ° C and the temperature control accuracy is +/- 2 ° C, with over-temperature protection and automatic Timing function, and the Furnace volume is 16L to meet the needs of various Sample Handling.
High aluminum Furnace wear-resistant high temperature, 4-sided heating evenly; PID self-tuning temperature control accuracy +/- 2 ℃, over-temperature automatic protection; compact overall structure, convenient and safe operation.
Double-decked insulation Furnace shell to ensure that the shell is not hot, ceramic fiber Furnace with multi-sided heating to achieve uniform temperature distribution in the cavity. Heating rate ≥ 10 ℃/min, temperature control accuracy +/- 2 ℃, equipped with K-type Thermocouple and multiple Safety protection system.
Ceramic fiber Furnace to achieve multi-faceted heating, Temperature uniformity less than +/- 5 ℃, heating rate ≥ 10 ℃/min, with nitrogen filling device to slow down oxidation and flue discharge of harmful gases.
Temperature uniformity is less than +/- 5 ℃, heating rate is ≥ 10 ℃/min. With nitrogen filling device to slow down oxidation, double-decked Furnace shell insulation design to ensure that the shell is not hot, support self-made temperature control program.
Maximum temperature 1000 ℃ and temperature control accuracy +/- 2 ℃, using high aluminum liner and 4-sided heating design, with over-temperature alarm and automatic Timing function, PID self-tuning control to ensure temperature stability.
High aluminum liner and 4-sided heating design, temperature control accuracy +/- 2 ℃, heating rate ≥ 10 ℃/min, with over-temperature protection and automatic Timing function, Furnace sealing structure to ensure thermal efficiency and service life.
Temperature uniformity less than +/- 5 ℃, heating rate ≥ 10 ℃/min. Equipped with ash experimental flue and nitrogen filling device, it has multiple Safety protection functions such as over-current, over-pressure and over-temperature.
High aluminum liner wear resistance and high temperature, 4-sided heating uniform, temperature control accuracy of +/- 2 ℃, with independent over-temperature protection and automatic shutdown function, support users to customize the heating section temperature and time paraMeters.
The equipment adopts 4-sided Heating mode, the maximum temperature is 1000 ℃, and the temperature control accuracy is +/- 2 ℃. It has the function of intelligent segmented control time and temperature, automatic alarm and cut off heating over temperature to ensure the safety and stability of the experiment.
