Overview
Huicheng DSC-600C/-10~ 600 Differential Scanning Calorimeter is a heat flow Differential Scanning Calorimeter, which adopts thermal effect measurement technology at controllable program temperature. The instrument can study the phase transition of inorganic materials, the melting of polymer materials and the crystallization process, and the solid/liquid phase ratio of foods such as oils and fats.
Features
1. Integrated design of the whole machine, improve signal sensitivity and resolution, get more stable Baseline
2. Equipped with imported high-frequency core control processor, fast computing processing speed and efficient control
3. Adopt Imported High Sensitivity Sensor to improve DSC signal sensitivity and accuracy
4. Independent Atmosphere Control system, software intelligent settings, automatic switching of gas paths
5. The lower computer and the upper computer have multi-point temperature correction function at the same time
6. Available in two experimental modes: FTC and STC
7. The full temperature control system uses an optimized dynamic PID algorithm
8.12-Order program temperature control setting
9. Sensor signal sampling Frequency 1~ 10Hz can be set
10. Independent dual temperature sensor, test furnace temperature and sample temperature simultaneously
11. Support heating, cooling, and isothermal experiments
12. USB two-way communication, support self-recovery connection, intelligent software design
Principle
Differential scanning calorimetry (DSC) is a thermal analysis method for the measurement of the thermal effect of materials at a controlled program temperature. By measuring the heat flow difference between the sample and the reference, the physicochemical changes of the material during temperature changes are studied.
Applications
Inorganic material phase transition, polymer material melting and crystallization, oil food solid/liquid ratio, Glass transition temperature measurement, melting point measurement, melting temperature analysis, crystallization heat measurement, phase transition reaction thermal analysis, product thermal stability test, curing/crosslinking study, oxidation induction period determination
Standards
Equipped with standard materials, users can adjust the temperature and enthalpy by themselves
Steps
1. Intelligent setting of experimental parameters through software
2. Set the program temperature control stage
3. Select FTC or STC experimental mode
4. Set up atmosphere Control system
5. Set Sensor sampling Frequency
6. Conduct heating, cooling or isothermal experiments
7. The instrument automatically collects data and plots
8. Software intelligently processes experimental data
Notice
• Operating voltage AC220V/50Hz or custom voltage
• Gas pressure needs to be controlled at 0.2Mpa
• Gas flow rate range is 0~ 200mL/min
• Temperature and enthalpy correction is required before the experiment
• Note that the working Power of the instrument is 300W
