DSC measures the relationship between temperature and heat flow related to the thermal transition within a material, and has a wide range of applications, especially in material development, performance testing and quality control. Properties of the material: e.g. glass transition temperature. Cold crystallization, phase transition, melting, crystallization, thermal stability, curing cross-linking, oxidation induction period, etc., are all research and development areas of DSC.
Key features:
1.New furnace structure, better resolution and better baseline stability.
2.The parameters can be set to multi-stage heating, constant temperature and cooling.
3.The instrument can be controlled in both directions (host control, software control), with friendly interface and easy operation.
4.Imported chips are used, and the acquisition circuit is shielded and anti-interference processed.
5.The sensor uses hot melt technology instead of traditional spot welding technology, which is more sensitive.
Technical Parameters:
1.Temperature range: minus 70 600
2.Temperature resolution: 001℃
3.Temperature fluctuations: 001℃
4.Heating rate: 01~100℃/min
5.Constant temperature time: can be set by yourself.
6.Temperature control mode: heating, constant temperature, cooling (automatic program control).
7.Scanning method: temperature scanning, cooling scanning.
8.DSC range: 0 600MW
9.DSC resolution: 001uw
10.DSC degree: 0001mw
11.Working power supply: AC220V 50HZ or customized.
12.Atmosphere control gas: two automatic switching (automatic switching of the instrument).
13.Program control: It can realize six-stage heating and constant temperature control, and special parameters can be customized.
14.Gas flow rate: 0-300ml min (other measuring ranges can be customized).
15.Gas pressure: 5MPa
16.Display: 24bit color, 7-inch LCD touch screen display.
17.Data interface: standard USB interface.
18.Parameter standard: Equipped with reference materials (indium, tin, lead), the temperature can be calibrated by the user.
19.Instrument thermocouples: three sets of thermocouples, one set to test the sample temperature, one group to test the internal ambient temperature of the instrument, and one group of furnace body overheating self-test sensors.