The New All-Inclusive Product Package for DSC Measurements
Easy-to-use, robust, precise, optimized for everyday use – these are the features of the innovative DSC 214 Polyma. The unique design of this instrument encompasses everything needed for successful DSC investigations – regardless of whether the user is a beginner or an experienced professional. Above all, it is the two new software developments that are setting new standards: AutoEvaluation and Identify. These have the potential to revolutionize DSC analysis.
- New all-inclusive 360° product package for the characterization of polymers
- Easier sample preparation than ever before
- Automated measurement and evaluation
The First Classic Heat-Flux DSC for Fast Cooling
Integrated in the DSC 214 Polyma is an oval furnace with a very low thermal mass (Arena® furnace), which allows for heating and cooling rates of up to 500 K/min – values previously unachievable with heat-flux DSCs. Temperature profiles can now be realized which are far closer to real processing conditions.
Groundbreaking Sensor Technology
The novel, patent-pending ring-shaped sensor is comprised of a core of nickel chromium and an outer ring of constantan. Both materials are diffusion-welded. This generates a defined, ring-shaped zone where the temperature under the crucible is recorded, resulting in a significantly higher reproducibility – especially in combination with the Concavus® crucibles.
By combining a very low thermal mass furnace (Arena®) with a robust, sensitive sensor (ring-shaped sensor) and optimized crucibles (Concavus®), the DSC 214 Polyma achieves impressive performance data.
Along with fast heating and cooling rates – which also allow for IsothermalTests at controlled and constant temperature are called isothermal.isothermal CrystallizationCrystallization is the physical process of hardening during the formation and growth of crystals. During this process, heat of crystallization is released.crystallization experiments – this is expressed particularly by the Indium Response Ratio, which is the achievable height-to-width-ratio of the melting peak of indium.
A high value for the Indium Response Ratio describes a peak that is not only tall (high sensitivity), but also narrow. This allows for the detection of weak effects and, at the same time, for the reliable separation of peaks occurring in close succession.
The DSC 214 Polyma features a high Indium Response Ratio of over 100 mW/K – a value which is not only far greater than average, but actually one of the highest ever published for a DSC instrument.
Request a Quote
±0.1% for indium and ±0.05% to ± 0.2% for most samples
Specific heat determination: Optional
Temperature modulation: Optional
Inert, oxidizing, static and dynamic operation
Cooling device options:
Compressed air cooling (RT to 600°C)
IC40 (-40°C to 600°C)
IC70 (-70°C to 600°C)
LN2 (-170°C to 600°C)
Indium Response Ratio:
> 100 mW/K
(Related to indium as standard material under measurement conditions typically used for polymer investigation)
0.001 K/min to 500 K/min
(Maximum rates depend upon the temperature)
Proteus® 8.0: Software That Frees Time for Other Tasks
A simplified user interface for setting up measurement programs (SmartMode), automatic curve evaluation at the push of a button (AutoEvaluation), and a program for identifying unknown polymer curves (Identify) are the software’s keys to freeing up time for other tasks. Even inexperienced users are able to obtain fast, safe and meaningful results.
DSC specialists can make use of ExpertMode at any time to access the full scope of Proteus® software functionality. Results generated by means of AutoEvaluation can be manually post-processed and newly calculated so that the experienced user maintains full control of the evaluation process.
The Proteus® software version 8 – especially tailored to the DSC 214 Polyma – runs on Windows 7, Windows 8.1 or Windows 10. It is licensed with the instrument and can of course also be installed on other computer systems.
- Purity Determination of Nipagin by Means of DSC
- Material Characterization of Polymers by Methods of Thermal Analysis
- Peak Separation Software - Easy Identification of the Components in a Multilayer
- Thermokinetics Software to Predict a Curing Reaction
- About the Thermal Behavior of Acetylsalicylic Acid and Aspirin®
- Polyethylene LDPE LLDPE HDPE
- Polyoxymethylene POM
- Powder Coating