DSC8L Differential Scanning Calorimeter Introduction
DSC measures the temperature and heat flow associated with the internal thermal transition of the material. It should be used in a wide range of applications, especially material development, performance testing and quality control. Characteristics of the material: such as glass transition temperature. Cold crystallization, phase transformation, melting, crystallization, thermal stability, curing/crosslinking, oxidizing rust lead time, etc., are all areas of DSC research and development. For example: material development; performance testing; quality control.
Feature
1: Digital gas mass flow meter, precisely control the flow of purge gas, the data is directly recorded in the database;
2: The instrument can adopt bidirectional control (host control, software control), friendly interface and easy operation;
3: New furnace structure for better resolution and resolution and better baseline stability.
Technical Parameters
DSC range: 0 ~ ± 500mW
Temperature range: -100~800°C liquid nitrogen refrigeration
Heating rate: 1~80°C/min
Temperature resolution: 0.1 °C
Temperature fluctuation: ±0.1 °C
Temperature repeatability: ±0.1 °C
DSC noise: 0.01μW
DSC resolution: 0.01μW
DSC accuracy: 0.1μW
DSC sensitivity: 0.1μW
Temperature control mode: heating, constant temperature (full program automatic control)
Curve scan: temperature sweep
Atmosphere control: automatic switching of instruments
Display mode: 24bit color, 7 inch LCD touch screen display
Data interface: Standard USB interface
Parameter standard: With standard substance (tin), users can correct temperature and enthusiasm
Remarks: If you need other accessories, please discuss separately
Introduction
DSC measures the temperature and heat flow associated with the internal thermal transition of the material. It should be used in a wide range of applications, especially material development, performance testing and quality control. Characteristics of the material: such as glass transition temperature. Cold crystallization, phase transformation, melting, crystallization, thermal stability, curing/crosslinking, oxidizing rust lead time, etc., are all areas of DSC research and development. For example: material development; performance testing; quality control.
