Introduction: Microwave heating technology has two functions: thermal effect and non-thermal effect (biological effect). The essence of thermal effect is the principle of medium heating, which is completely different from traditional conduction, convection, and radiation methods. At the same time, microwave belongs to high-frequency electromagnetic waves. Different frequency influences; from the perspective of material processing, it can be divided into two directions: physics and chemistry, where physical applications include: heating, drying, concentration, puffing; chemical applications include: catalysis, synthesis, pyrolysis, sintering, etc.; Therefore, based on the wide application of microwave technology in the field of scientific research, in a broad sense, microwave ovens in the field of scientific research can be called laboratory microwave ovens (experimental microwave ovens, microwave experimental ovens, etc.). Features: 1. Laboratory use microwave heating concentration pyrolysis experimental platform 2. Support microwave high temperature heating treatment of solids, liquids and mixtures within 500˚C 3. Support negative pressure drainage to remove high temperature exhaust gas process 4. Support material rotation and even heating mode 5. Intelligent control system, temperature and power closed-loop controllable 6. User-customized and expandable functions: Please select the "Microwave Muffle Furnace" product platform for temperature environments above 500˚C Technical parameter microwave system 1. Microwave power: rated power 800W/2450MHz, stepless non-pulse continuous microwave power output 2. Microwave heating cavity design: ①304 stainless steel welded together, solid and reliable ②The inner surface is coated with multi-layer Teflon anti-corrosion coating, which is suitable for use in acid-base corrosion and high-temperature environments, and is easy to wipe and clean ③Support high-temperature exhaust negative pressure strong discharge and collection 3. Inner cavity size: 10 ~ 20L according to temperature process conditions functional system 1. Heating system: square glass tray system, suitable for heating, evaporation, concentration, pyrolysis process operation 2. Temperature control: ①Temperature range: common working temperature 0~500℃ ②Using infrared temperature measurement 3. Material control: Mechanical stirring method (mixing optional, high temperature stirring process) 4. Process monitoring: LED spotlights are installed inside the microwave cavity, and the working conditions in the furnace cavity are monitored through the door observation window. Control System 1. Using PLC programming control: good human-computer interaction, integrated control terminal, intelligent and controllable temperature and power 2. Touch screen dialogue window, easy and fast operation, real-time display of time, temperature, power curve, data can be read and stored 3. Multiple sets of program memory functions, which can store, modify, call, delete and other system operations on the program security system 1. The door body has multiple interlocking structure, the door is powered off, and the operator is protected 2. The door body adopts a pull-down locking structure, which has the function of elastic translation and pressure relief to protect the operator. 3. The door body adopts λ/4 high impedance microwave anti-current suppression structure to ensure the health and safety of operators. Microwave leakage: <5mW/cm2 (better than the national standard) 4. The equipment is equipped with a negative pressure fan, which can quickly remove the exhaust gas in the furnace cavity and protect the operator Machine description 1. Equipment power supply: 220Vac / 50Hz, power consumption of the whole machine: 1300W 2. Appearance size: main body about: 782×800×450mm (width×height×depth) 3. Equipment weight: 65kg
Introduction: Microwave heating technology has two functions: thermal effect and non-thermal effect (biological effect). The essence of thermal effect is the principle of medium heating, which is completely different from traditional conduction, convection, and radiation methods. At the same time, microwave belongs to high-frequency electromagnetic waves. Different frequency influences; from the perspective of material processing, it can be divided into two directions: physics and chemistry, where physical applications include: heating, drying, concentration, puffing; chemical applications include: catalysis, synthesis, pyrolysis, sintering, etc.; Therefore, based on the wide application of microwave technology in the field of scientific research, in a broad sense, microwave ovens in the field of scientific research can be called laboratory microwave ovens (experimental microwave ovens, microwave experimental ovens, etc.).
