HFCT-1 Optical Radiation Furnace Differential Thermal Balance Introduction: The HFCT-1 Optical Radiation Furnace Differential Thermal Balance can quickly measure physical and chemical changes related to heat, such as the melting point, heat of fusion, crystallization and heat of crystallization, heat of phase change reaction, thermal stability, glass transition temperature, adsorption and desorption, component content analysis, decomposition, combination, dehydration, additives, and other changes for research. Features: 1. The heat flow DSC data acquisition method allows for the plotting of energy versus temperature curves. The maximum heating rate can be set to 300℃/min; 2. Standard samples can be used to calibrate the accuracy of temperature, energy, and thermogravimetric measurements; 3. The atmosphere control system employs a mass flow controller, allowing for automatic switching between two stable pressure and flow gas paths during the experiment. It boasts high precision, excellent repeatability, and rapid response speed (customizable atmosphere control systems resistant to various corrosive gases are available); 4. It can meet various sample testing requirements; 5. Fully automated measurement and plotting, capable of handling routine data processing such as DTA, TG, DTG, DDTG, etc.; as well as data processing for DTA peak area, enthalpy calculation, kinetic parameter calculation, data comparison, activation energy calculation using various algorithms, glass transition temperature, and specific heat measurement using comparative methods; 6. It can take real-time screenshots and automatically adjust the measurement range according to the output signal strength; 7. Large-screen LCD display, real-time display of instrument status and data, equipped with two sets of temperature measuring thermocouples, which respectively display the sample temperature and furnace temperature during operation; 8. Special accessories (optional): FTIR/MS/GCMS online coupled system, visual monitoring system for reaction process, multi-channel gas mixing system, and control system for water vapor generator. Technical Specifications: DSC data DSC measurement range: 0-±500mW DSC resolution: 0.1μW DSC accuracy ±0.1μW DTA data DTA measurement range: ±10μV to ±2000μV DTA resolution: 0.01μV temperature data Temperature range: Room temperature - 900℃ Temperature accuracy: ±0.1℃ Heating rate: Maximum setting of 300℃/min Temperature control methods: heating, maintaining a constant temperature, and cooling (programmatically controlled) Tianping Data (TG) Thermogravimetric range: 1 to 200mg Balance sensitivity: 0.1μg Thermogravimetric noise < 0.1 μg Atmosphere system: Controlled by two gas mass flowmeters, with programmable automatic switching Atmosphere: Inert (static, dynamic), oxidizing, reducing, vacuum (optional) Crucible configuration: Alumina crucible Software Features: Supports switching between Chinese, English, and Russian languages; offers the option to correct the baseline; allows for self-correction of temperature, mass, and enthalpy; comes with standard samples
HFCT-1 Optical Radiation Furnace Differential Thermal Balance Introduction: The HFCT-1 Optical Radiation Furnace Differential Thermal Balance can quickly measure physical and chemical changes related to heat, such as the melting point, heat of fusion, crystallization and heat of crystallization, heat of phase change reaction, thermal stability, glass transition temperature, adsorption and desorption, component content analysis, decomposition, combination, dehydration, additives, and other changes for research.
