Fractionation can be caused by a variety of chemical, biological, or physical processes and is employed in various areas of science, engineering and technology.
Fractionation systems are designed to separate an analyte from a sample into equal portions or fractions. It does so in accordance with either the analytes physical or chemical properties, such as by size, density, or bonding ability. In column chromatography, for example, fractionation occurs by difference of affinity whereas in cell fractionation, the cells components are fractioned out by difference in mass. Fractionation instruments provide hands-off, programable, and repeatable options for separating desired samples.
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| Company | Polymer Char | Polymer Char | Polymer Char | Polymer Char | Polymer Char |
| Item | CFC | CRYSTAF Instrument | CRYSTAF-TREF Instrument | TGIC Instrument | TREF Instrument |
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| Catalog Number | CFC | CRYSTAF | CRYSTAF-TREF | TGIC | TREF |
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| Description | This Cross-Fractionation Chromatograph obtains the bivariate distribution in polyolefins. The two-dimensional distribution that relates molar mass and chemical composition is often required for comprehensive characterization of complex materials. The CFC first fractionates the polymer according to This Cross-Fractionation Chromatograph obtains the bivariate distribution in polyolefins. The two-dimensional distribution that relates molar mass and chemical composition is often required for comprehensive characterization of complex materials. The CFC first fractionates the polymer according to composition through a Temperature Rising Elution Fractionation (TREF) process, while the resulting fractions are continuously injected into online GPC columns, where a second fractionation, this time according to molar mass, is performed.
Features - Analytical scale, fully-automated instrument for cross-fractionation of polyolefins.
- An integrated IR5 MCT detector provides excellent sensitivity in concentration and composition signals.
- A new autosampler with 42 vials for extended analysis throughput is incorporated.
- The first separation step on the basis of composition can be performed by TREF for crystallizable polyolefin materials or by TGIC for elastomer resins.
- Comprehensive information on molar mass and chemical composition distributions in a single analysis is obtained.
- Flexible definition of number of fractions and temperatures.
- Under standard conditions, two samples per day can be analyzed.
- Sub-ambient TREF operation (down to -20°C) for low crystallinity samples
... Read More | CRYSTAF instrument performs Crystallization Analysis Fractionation technique to separate the polymer by its comonomer content. The process is done in a single temperature ramp, while the polymer solution concentration is monitored by using the infrared detector IR4 of Polymer Char.
CRYSTAF can be CRYSTAF instrument performs Crystallization Analysis Fractionation technique to separate the polymer by its comonomer content. The process is done in a single temperature ramp, while the polymer solution concentration is monitored by using the infrared detector IR4 of Polymer Char.
CRYSTAF can be converted into a CRYSTAF-TREF combined system capable of running both techniques by using the same hardware. Each technique can provide complementary information on the CCD in some complex resins.
Features - Full automation of the CRYSTAF technique to measure the CCD
- Analysis of 5 samples in 8 hours.
- Convertible into a CRYSTAF-TREF apparatus.
- Possibility of subambient operation (down to -20ºC) for low crystallinity samples.
... Read More | The CRYSTAF-TREF instrument is a very convenient option when needing to analyze the CCD in Polyolefins, since either CRYSTAF or TREF techniques can be performed just by changing the configuration of the equipment.
Features - Possibility of running CRYSTAF or TREF techniques in the same instrument.
The CRYSTAF-TREF instrument is a very convenient option when needing to analyze the CCD in Polyolefins, since either CRYSTAF or TREF techniques can be performed just by changing the configuration of the equipment.
Features - Possibility of running CRYSTAF or TREF techniques in the same instrument.
- Full automation of the CRYSTAF and TREF techniques to measure the CCD
- 5 samples can be analyzed with no supervision required; done sequentially in TREF mode with an analysis time of 6 hours/sample, and simultaneously in CRYSTAF mode with a total analysis time of 8 hours.
- Possibility of subambient operation (down to -20ºC) for low crystallinity samples
... Read More | The TGIC Instrument is a fully automated Thermal Gradient Interaction Chromatograph Instrument for measuring Composition Distribution in Elastomers and Low Crystallinity Polyolefin Copolymers.
Features - Fully automated operation with no manual solvent handling. Integrated vial filling with solvent,
The TGIC Instrument is a fully automated Thermal Gradient Interaction Chromatograph Instrument for measuring Composition Distribution in Elastomers and Low Crystallinity Polyolefin Copolymers.
Features - Fully automated operation with no manual solvent handling. Integrated vial filling with solvent, sample dissolution and in-line filtration.
- Fast analysis time of around 2-3 hours including sample dissolution.
- Analysis of up to 42 samples sequentially, with the possibility of using different methods each one.
- Both TGIC and CEF analyses can be performed in the same instrument with dedicated software packages.
- Easy incorporation of Polymer Char’s on-line Viscometer for composition molar mass interdependence.
- Option to integrate IR5 MCT detector for maximum sensitivity in both concentration and composition signals.
... Read More | Temperature Rising Elution Fractionation has been the most comprehensive technique for the characterization of the Chemical Composition Distribution (CCD) in polyolefins, and Polymer Char’s TREF is the first fully automated apparatus implementing this technique.
TREF can be converted into a CRYSTAFTemperature Rising Elution Fractionation has been the most comprehensive technique for the characterization of the Chemical Composition Distribution (CCD) in polyolefins, and Polymer Char’s TREF is the first fully automated apparatus implementing this technique.
TREF can be converted into a CRYSTAF-TREF combined system capable of running both techniques by using the same hardware. Each technique can provide complementary information on the CCD in some complex resins.
Features - Full automation of the TREF techniques to measure the CCD
- 5 samples can be analyzed sequentially with no supervision required, with an analysis time of 6 hours per sample.
- Possibility of adding other detectors like Viscometer or Light Scattering.
- Easy convertible into a CRYSTAF-TREF apparatus.
- Possibility of subambient operation (down to -20ºC) for low crystallinity samples.
... Read More |
| Type | High Resolution Cross-Fractionation Chromatograph | Crystallization Analysis Fractionation | Inquire | Thermal Gradient Interaction Chromatography | Temperature Rising Elution Fractionation |
| Applications | Polyolefin characterization | Chemical Composition Distribution (CCD) in Polyolefins | Chemical Composition Distribution (CCD) in Polyolefins | Measuring Composition Distribution in Elastomers and Low Crystallinity Polyolefin Copolymers | Chemical Composition Distribution (CCD) in Polyolefins |
| Detector(s) | Infrared Detector IR4 and IR5 MCT | Infrared Detector IR4 | Infrared Detector IR4 and Viscometer | Infrared Detector IR4 and IR5 MCT, Viscometer | Infrared Detector IR4 and Viscometer |
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