Introduction: MSK-SP-04-LD Ultrasonic Atomizing Pyrolysis Coating Film Machine can accurately control the parameters such as the solution stoichiometric ratio, the ejection velocity of mist particles and the size of mist particles. The stepper motor and microprocessor are used to control the volumetric pump. Precise delivery of solvent. An ultrasonic nebulizer can produce thinner nano-coatings and is controlled by a stepper motor to move in the X and Y directions to ensure coating uniformity. At the same time the substrate temperature can be controlled to meet the experimental needs. Features: The spray pyrolysis film forming method sprays a solution onto a heated substrate and then obtains a desired material structure on the substrate. This method of material preparation is particularly suitable for depositing oxides and has a long history of use in the preparation of transparent electrodes. This method is now widely used in the preparation of perovskite solar cells. Technical Parameters: Input power: 208V-240V 50Hz/60Hz Stepper motor: 24V DC Ultrasonic atomizer: 40KHz 130W Drip coating tank: 50ml, 250ml Drip coating rate: 1ml/s-20ml/s Drop size: 50μm Sprayer travels in X and Y axes: 200mm Sprayer movement speed: X axis direction 10mm/s-800mm/s, Y axis direction 1mm/s-12mm/s (air compressor push) Substrate holding table: 150mm×150mm Maximum heatable temperature: 500°C Temperature control table: digital display, 7-step heating and cooling program can be set Size: 840mm×920mm×1400mm Installation conditions This equipment is required to be used at altitudes below 1000m, temperature 25°C±15°C, and humidity 55%Rh±10%Rh. 1, water: no 2, electricity: AC220V 50Hz, must have a good ground 3, gas: no 4、Workbench: The equipment is floor-standing, with an area of over 1m2 5, ventilation device: need
Introduction: MSK-SP-04-LD Ultrasonic Atomizing Pyrolysis Coating Film Machine can accurately control the parameters such as the solution stoichiometric ratio, the ejection velocity of mist particles and the size of mist particles. The stepper motor and microprocessor are used to control the volumetric pump. Precise delivery of solvent. An ultrasonic nebulizer can produce thinner nano-coatings and is controlled by a stepper motor to move in the X and Y directions to ensure coating uniformity. At the same time the substrate temperature can be controlled to meet the experimental needs.
