Thermal Gravimetric Analyzer
1. The furnace body is heated using a double-row winding of precious metal nickel-cadmium alloy wire, which reduces interference and is more robust to high temperatures.
2. The tray sensor's excellent temperature, oxidation, and corrosion resistance stems from the precious metal alloy wire utilized to manufacture it.
3. To reduce the effect of heat and vibration on the micro-thermal balance, the power supply and circulating heat dissipation component are separated from the main machine.
4. Use a top-opening structure for easier operation. The sample rod is readily destroyed, and positioning the sample requires raising the furnace body.
Follow us on Facebook and Youtube.More Thermal Analysis,click here.
SKZ1053 Thermal Gravimetric Analyzer
When heating a material to look into its composition and thermal stability, thermogravimetric analysis (TG, TGA) is used to monitor changes in sample quality over time or at various temperatures.
widely utilized in the development, manufacturing, quality assurance, and process optimization of polymers, rubber, coatings, medicines, catalysts, inorganic, metal, and composite materials.
Uses: oxidation and reduction, breakdown process, moisture and volatiles, reaction kinetics, additions and fillers, adsorption and desorption, and quantitative component analysis.
Advantages of structure:
1. The furnace body is heated by double-row winding of precious metal nickel-cadmium alloy wire, which reduces interference and boosts resilience to high temperatures.
2. The wire composed of a precious metal alloy, which is utilized to manufacture the tray sensor, gives it resistance to corrosion, oxidation, and high temperatures.
3. The power supply and circulation heat dissipation component are segregated from the main machine to reduce the effect of heat and vibration on the micro-thermal balancing.
4. Use an easy-to-use design with a top opening. Raising the furnace body to place the sample is difficult, and breaking the sample rod is an easy task.
5. The host utilizes the heat insulation and micro-thermal balance that the heating furnace body to the chassis provides.
6. The furnace body can be modified to the client's specifications.
Benefits of software and controllers:
1. Using an imported ARM CPU results in faster processing and sampling rates.
2. Four-channel sampling AD is used to capture the temperature T and TG signals.
3. PID algorithm-based exact heating control. Gradually raising and holding the temperature constant.
4. The program and the instrument use USB two-way connection to fully accomplish remote operation. The computer program can be used to start and stop the instrument as well as set its parameters.
5. A superior man-machine interface and a 7-inch touch panel featuring 24bit color. For TG, touch screen calibration is achievable.
Temperature range | Actual maximum temperature 1150℃(SKZ1053A) Actual maximum temperature 1350℃(SKZ1053B) Actual maximum temperature 1600℃(SKZ1053C) |
Temperature resolution | 0.01℃ |
Temperature fluctuation | ±0.01℃ |
Heating rate | 0.1 ~ 100 ℃ / min |
Temperature control mode | Rising, Constant temperature |
Program control | Program setting multi-stage heating and constant temperature |
Cooling time | 15min (1000℃ ~ 100℃), Natural cooling |
Balance measuring scope | 1mg~3g , Can be expanded to 50g |
Sensitivity | 0.01mg |
Constant temperature and time | 0 ~ 300min (set arbitrarily) |
Display | Liquid crystal display (LCD), English version |
Atmosphere device | Built-in gas flow meter, includes switch two path gas and control flow volume |
Software | Record TG curves automatically, Processing data and print |
Data interface | USB interface |
Power | AC220V 50Hz |
Size | 500*400*430mm |
Related News
Submitted successfully
We will contact you as soon as possible