Specifications
MODEL |
DTA PT 1600* |
Temperature range: |
-150°C bis 500/700/1000°C, RT – 1400/1500/1600/1650/1750/2000/2400°C |
Price range: |
$ |
Sensor: |
E/K/S/B/W |
Sensor Types: |
DTA |
Heating rates: |
0.001 K/min … 50 K/min |
Cooling rates**: |
0.001 K/min … 50 K/min |
Sensor: |
heat flux |
Temperature modulation: |
Yes |
Atmospheres: |
reducing, oxid., inert (static, dynamic) |
Vacuum: |
10-5mbar |
PC Interface: |
USB |
*Specs depend on configurations
**temperature dependent
Software
All thermo analytical devices of LINSEIS are PC controlled and the individual software modules exclusively run under Microsoft Windows operating systems. The complete software consists of 3 modules: temperature control, data acquisition and data evaluation. The Linseis 32 – bit software encounters all essential features for measurement preparation, execution and evaluation with a DTA run, just like with other thermo analytical experiments. Due to our specialists and application experts LINSEIS was able to develop this easy understandable and highly practical software.
General Features
- Repetition measurements with minimum parameter input
- Evaluation of current measurement
- Curve comparison up to 32 curves
- Curve subtraction
- Multi-methods analysis (DSC TG, TMA, DIL, etc.)
- Zoom function
- 1. and 2. Derivative
- Multiple smoothing functions
- Complex peak evaluation
- Multipoint calibration for sample temperature
- Multipoint calibration for change of enthalpy
- Cp calibration for heat flow
- Storage and export of evaluations
- Program capable of text editing
- Export and import of data ASCII
- Data export to MS Excel
- Signal-steered measuring procedures
- Zoom in function
- Undo function
Applications
The Linseis DTA PT 1600 uses a dynamic measuring principle. It can measure endothermal and exothermal heat flows between the sample and the reference. These heat flows are result of physical or chemical changes of the samples. Very often a DTA is used for purity measurements of mixtures of metals. This is due to the fact that the melting point changes in dependence to differing amounts of impurities.
- Purity measurements
- Melting point determination (onset / offset)
- energy content of explosives
- stability of explosives (storage)