DTA/DSC


Differential Scanning Calorimetry (DSC) - Differential Thermal Analysis (DTA)


Differential Thermal Analysis (DTA) is a very popular thermal analysis technique it measures endothermic and exothermic transitions as a function of temperature. All Linseis Differential Thermal Analyzers (DTA) comprise the advantages of latest technology, highest resolution and a robust easy to use instrument design.

Certainly the Differential Thermal Analyzer corresponds with all national and international Norms, such as: ASTM C 351, D 3417, D 3418, D 3895, D 4565, E 793, E 794, DIN 51004, DIN 51007, ISO 10837
 

General

The Linseis DTA 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)
     

 

Features

  • Temperature range -150°C up to +2400°C
  • Low heat capacity measuring head
  • Different furnaces available / -150°C up to +2400°C
  • Vacuum up to 10E-5mbarStatic and dynamic gas atmospheres
  • MS Windows 32 Bit Software

 

 

 

Specifications 

Model

 

DTA PT1600

Temperature range

 

-150 up to 500°C
RT up to 1400/1600/1750/2400°C

Time constant

 

7 s

Resolution

 

0.05 uV

Data acquisition rate

 

0.1 s up to 3600 s / data point

Sensors

 

DTA (E/K/S/B)*
DSC (E/K/S/B)*

Measuring range

 

250....2500 uV

Atmosphere

 

inert., oxidizing, reducing, vacuum

Automatic evacuation

 

optional

Gas control box

 

optional

Multi-furnace turntable

 

optional

*Thermocouple

 

Type-E, Type-K, Type-S, Type-B

Brochure for more product information.

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