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Use
Measure the physical and chemical changes related to heat, such as glass transition temperature, melting point, melting temperature, crystallization and crystallization heat, phase transition reaction heat, thermal stability of products, curing / crosslinking, oxidation induction period, etc.
Differential scanning calorimetry method (thermal flow DSC), as a classical thermal analysis method of thermal effect under controllable program temperature, has been widely used in various research and development, process optimization, quality control and failure analysis in various fields of materials and chemistry.Using the DSC method, we were able to study the phase transition of inorganic materials, melting of polymer materials, crystallization process, polycrystalline phenomenon of drugs, solid / liquid phase ratio of foods such as oil, etc.
Standard
GB/T 19466.2 – 2004 / ISO 11357-2: 1999;GB/T 19466.3 – 2004 / ISO 11357-3: 1999;GB /T 19466.62009/ISO 11357-3 :1999
Main technical parameter:
(1) DSC range:, 0~ ± 500mW
(2) Temperature range: RT ~600℃
(3) Heating rate: 0.1~80℃ / min
(4) Temperature resolution: 0.01℃
(5) Temperature repeatability: ± 0.1℃
(6) DSC noise:0.001mW
(7) DSC resolution: 0.001mW
(8) DSC accuracy: 0.001mW
(9) DSC Sensitivity: 0.1mW
(10) Temperature control mode: temperature increase and constant temperature (automatic control by the whole program)
(11) Curve scan: heat-up scan
(12) Atmosphere control: the instrument will switch automatically
(13) Gas flow rate: 0-200mL / min
(14) Gas pressure: 0.2MPa
(15) Display mode: 24bit color 7-inch LCD touch screen display
(16) Data Interface: the standard USB interface
(17) Parameter standard: equipped with standard material, with a one-click calibration function, users can correct the temperature and heat enthalpy
Use
Measure the physical and chemical changes related to heat, such as glass transition temperature, melting point, melting temperature, crystallization and crystallization heat, phase transition reaction heat, thermal stability of products, curing / crosslinking, oxidation induction period, etc.
Differential scanning calorimetry method (thermal flow DSC), as a classical thermal analysis method of thermal effect under controllable program temperature, has been widely used in various research and development, process optimization, quality control and failure analysis in various fields of materials and chemistry.Using the DSC method, we were able to study the phase transition of inorganic materials, melting of polymer materials, crystallization process, polycrystalline phenomenon of drugs, solid / liquid phase ratio of foods such as oil, etc.
Standard
GB/T 19466.2 – 2004 / ISO 11357-2: 1999;GB/T 19466.3 – 2004 / ISO 11357-3: 1999;GB /T 19466.62009/ISO 11357-3 :1999
Main technical parameter:
(1) DSC range:, 0~ ± 500mW
(2) Temperature range: RT ~600℃
(3) Heating rate: 0.1~80℃ / min
(4) Temperature resolution: 0.01℃
(5) Temperature repeatability: ± 0.1℃
(6) DSC noise:0.001mW
(7) DSC resolution: 0.001mW
(8) DSC accuracy: 0.001mW
(9) DSC Sensitivity: 0.1mW
(10) Temperature control mode: temperature increase and constant temperature (automatic control by the whole program)
(11) Curve scan: heat-up scan
(12) Atmosphere control: the instrument will switch automatically
(13) Gas flow rate: 0-200mL / min
(14) Gas pressure: 0.2MPa
(15) Display mode: 24bit color 7-inch LCD touch screen display
(16) Data Interface: the standard USB interface
(17) Parameter standard: equipped with standard material, with a one-click calibration function, users can correct the temperature and heat enthalpy