AL-MHVS4016 Small Microwave High Temperature Atmosphere Reactor

Instrument Introduction:

The AL-MHVS4016 small microwave high-temperature atmosphere reactor is a standardized multifunctional microwave high-temperature and high vacuum experimental workstation that can achieve microwave high vacuum synthesis or sintering, and provide more precise atmosphere control for experiments that are easily affected by the atmosphere.

The AL-MHVS4016 small microwave high-temperature atmosphere reactor is mainly used for the synthesis and calcination of various inorganic powders. Carbides: SiC, CrC, VC, etc; Nitrides: Si3N4, MnxNy, AlN, VN, CrN, etc; Electronic ceramic powders: barium titanate, strontium barium titanate, strontium titanate, zirconium barium titanate, etc; Fluorescent powder (LED powder, tricolor long residual glow powder, etc.); Lithium ion battery materials: positive electrode materials such as lithium cobalt oxide, lithium manganese oxide, lithium iron phosphate, and negative electrode carbon materials; Various colors of ceramic pigments, glazes, ceramic raw materials, etc.

The AL-MHVS4016 small microwave high-temperature atmosphere reactor is also used for sintering various inorganic material products/devices. Electronic ceramics: BaTiO3, SrTiO3, ZnO piezoelectric ceramics, PTC thermistor components, etc; Biomedical ceramics: artificial bones, teeth, etc., high-performance structural ceramics such as MgO, Al2O3, ZrO2, SiC, Y2O3, Si3N4, SiO2, etc.

The AL-MHVS4016 small microwave high-temperature atmosphere reactor is also used for sintering of iron-based, copper based powder metallurgy and hard alloy products. Sintering of neodymium iron boron magnetic materials; Nitriding and carbonization of metal powder materials.

Instrument features:

The AL-MHVS4016 small microwave high-temperature atmosphere reactor uses a specially designed industrial grade microwave source to ensure continuous and stable long-term operation of the equipment; Equipped with a two-stage vacuum unit and a two-way atmosphere control system, it can provide high vacuum or fine atmosphere conditions for sample experiments; Microwave output power is infinitely adjustable, achieving precise temperature control curve; Using imported high-precision infrared thermometers to directly measure sample temperature; Equipped with an embedded microcomputer control system, providing manual and automatic operation modes that can be freely switched; Various unique specialized crucibles and insulation structures are available for selection, with no pollution to materials; It can process materials with different microwave characteristics and has good universality; Set up corrosion-resistant exhaust channels to quickly exhaust gases generated during the heating process; Real time temperature curve display, achieving dynamic monitoring of the heating process; Safe and reliable microwave shielding design, multiple leak protection measures.

Instrument parameters:

1. Power supply: Two electric 220 ± 10V/50Hz, 6.2KW; Can work continuously for 24 hours.

*2. Heating methods: pure microwave heating, traditional electric heating, mixed heating;

*3. Microwave power continuous frequency conversion can achieve ultra fast temperature rise and significantly shorten the insulation time, resulting in doubled experimental efficiency.

*4. Microwave output power: 0.1-4KW continuously adjustable;

5. Microwave frequency: 2.45GHz ± 25MHz

*6. Maximum operating temperature: 1600 ℃ (ambient conditions), 1600 ℃ (optional low temperature zone or high temperature zone 10-3pa vacuum);

7. Temperature measurement method: microwave field specific sensor;

*8. Temperature measurement range: 0~1750 ° C;

*9. Temperature control accuracy: ± 2 ℃; Approaching the sample infinitely, measure the temperature of the sample itself. Working temperature range: 0~1600 ° C, temperature control stability: ± 1 ° C

*10. Heating rate (standard): 0-1000 ℃/min can be set arbitrarily, programmable, segmented heating.

*11. Atmosphere requirements and vacuum degree: 10-3pa vacuum or oxidizing, protective, and weakly reducing atmosphere

*12. Minimum loading space: φ100X100mm

13. Furnace body size: Φ 270 × 365 (height)

14. Circulating cooling water flow rate: ≥ 1.5m3/h；

15. Circulating cooling water pressure: ≥ 0.15MPa；

*16. Circulating cooling water inlet temperature: 5-30 ℃;

*17. Total hardness of circulating cooling water: ＜ 60mg/L (can be replaced with daily tap water);

*18. Control system: microcomputer intelligent control, touch screen control and display, capable of data storage function; Data can be exported; Real time temperature curve display enables dynamic monitoring of the heating process. It can set and store multiple temperature control curves, automatically store operation records, and is compatible with printers (optional).

*19. Set up corrosion-resistant exhaust channels to quickly exhaust gases generated during the heating process.

*20. Microwave leakage rate:< 0.4mw/cm2; (The national standard is<5mw/cm2)

21. Equipment dimensions: 400 × 600 × 650mm (length × width × height)

*Indicating our company's unique technology.