Parameter requirements of high temperature furnace

Specifications: 1000 ℃, 1200 ℃, 1300 ℃, up to 1600 ℃,

And can be customized according to the user's needs for special specifications of the furnace. Fast heating: 1000C furnace type from 100C to 1000C, less than 30 minutes

1700 degrees furnace 100C to 1700C, less than 90 minutes

High efficiency: as an experimental furnace, you can open the inlet and outlet holes, plus smoke tube, is conducive to replenishment of fresh oxygen to accelerate the test.

Because of the use of new ceramic fiber hearth, heat preservation effect is good, warming up to 1000C, and keep 1 hour after the shell surface is not hot, to avoid scalding. (About 45-55C according to the use of the environment)

Can significantly reduce the sintering temperature, up to 500. C;

Dramatically reduce energy consumption, energy saving as high as 70 -90 %;

Shorten the sintering time, up to 50% above;

Significantly improve the tissue density, grain refinement, improve material properties. Temperature

Item 1200℃

GWL-LB 1400℃

GWL-LB 1600℃

GWL-LB 1700℃

GWL-LB 180O℃

GWL-LB Maximum Working Temperature 1250℃ 1450℃ 1650℃ 1730℃ 182O℃ Long-term Working Temperature 1200℃ 1450℃ 1650℃ 1730℃ 182O℃ Long-term Working Temperature 1200℃ 1450℃ 1650℃ 1650℃ 1730℃ 182O℃ 182O℃ 182O℃ 182O℃ Long-term working temperature 1200℃ 1400℃ 1600℃ 1700℃ 180O℃ Temperature control accuracy ±1℃ ±1℃ ±1℃ ±1℃ ±1℃ Temperature field uniformity in the furnace ±1℃ (according to the size of the heating chamber), higher requirements can be used for multi-point temperature control ±1℃ (according to the size of the heating chamber) Higher requirements can be used for multi-point temperature control ±1℃ (according to the size of the heating chamber) Multi-point temperature control ±1°C (depending on the size of the heating chamber) can be used when higher requirements are met Multi-point temperature control ±1°C (depending on the size of the heating chamber) can be used when higher requirements are met Multi-point temperature control is available Temperature measurement elements and temperature range Nichrome-NiSi K Temperature measurement range 0-1350°C Platinum-Rhodium S Temperature measurement range 0-1700°C Platinum-Rhodium-Platinum B Temperature measurement range 0-1820°C Platinum-Rhodium-Platinum B Temperature measurement range 0-1820°C Platinum-Rhodium-Platinum B Temperature measurement range 0-1820°C Platinum-Rhodium-Platinum B Temperature measurement range 0-1820°C Platinum-Rhodium-Platinum B Temperature measurement range 0-1820°C 1820℃ Platinum-Rhodium-Platinum or fiber-optic infrared temperature measurement Programming curve segments A group of 50 segments, two groups of 22 segments, three groups of 8 segments A group of 50 segments, two groups of 22 segments, three groups of 8 segments A group of 50 segments, two groups of 22 segments, three groups of 8 segments A group of 50 segments, two groups of 22 segments, three groups of 8 segments Warming up rate 1 ℃/h to 40 ℃/min adjustable 1 ℃/h to 40 ℃/min adjustable 1 ℃/h to 40 ℃/min adjustable 1 ℃/h to 40 ℃/min adjustable 1 ℃/h to 40 ℃/min adjustable Heating Element Silicon Carbon Rod Silicon Carbon Rod 1800 Type Silicon Molybdenum Rod 1800 Type Silicon Molybdenum Rod 1900 Type Silicon Molybdenum Rod Heating Element Installation Position and Method Vertical Installation on Both Sides of Furnace Chamber Vertical Installation on Both Sides of Furnace Chamber Vertical Installation on Both Sides of Furnace Chamber Vertical Installation on Both Sides of Furnace Chamber Vertical Installation on Both Sides of Furnace Chamber Vertical Installation on Both Sides of Furnace Chamber Vertical Installation on Both Sides of Furnace Chamber Installation on both sides of the furnace chamber Refractory materials High-purity alumina fiberboard High-purity alumina zirconium-containing fiberboard Imported high-purity alumina fiberboard Imported high purity Morgan lightweight materials Imported high-purity Morgan lightweight materials Cooling structure Double-layer shell, air-cooled Double-layer shell, air-cooled Double-layer shell, air-cooled Double-layer shell, air-cooled Temperature of the furnace ≤45 degrees ≤45 degrees ≤45 degrees ≤45 degrees ≤45 degrees ≤45 degrees Computer interface RS485 A crucible clamp, a pair of high-temperature gloves ● Furnace body, intelligent controller split design, beautiful, generous, the furnace door adopts the side door design.

● Adopting two sides of the liner type heating element, easy to replace the wire, using imported ultra-high-temperature heat generator, oxidation resistance is more excellent, greatly increasing the service life.

● Adopt ceramic fiber adiabatic, greatly improve the heating speed, and reduce the thermal energy consumption, compared with the traditional muffle furnace weight reduction 1/2, heating speed increased by 1 times, greatly saving energy, life increased by 3.5 times; insulation effect is good, the furnace exterior temperature is low

● Adopt imported temperature control instrument table, new digital display, digital set temperature, intelligent control output The new digital display, digital set temperature, intelligent control output, can reduce the visual reading and human error in operation, greatly improving the efficiency of work.

● A variety of protective devices to improve the safety and reliability

● Independent control system, easy to maintain and replace

● Furnace body with exhaust holes (can be added according to user requirements of the gas protection inlet and exhaust air)

● According to user needs, other specifications of the product can be customized. All kinds of non-standard tube furnace, pit-type furnace, box furnace

Prepared: can be customized according to user needs of various specifications of shaped heating device, heating chamber!