MULTISAMPLE MACROSCOPIC & COLLOIDAL STABILITY ANALYZER
The Turbiscan TRI-LAB is a multi-sample stability analyzer based on SMLS. It enables fast and reliable shelf-life studies of formulations (emulsions, suspensions and foams). The Turbiscan TRI-LAB operates with 3 independent measurement positions for rapid and quantified comparisons of dispersion properties. The stability studies can be carried out between 20 to 60°C to mimic storage and shelf life conditions or to accelerate studies. The technology offers direct reading of macroscopic and colloidal stability without any sample dilution or mechanical stress. Contact us at Fullbrook Systems for a free brochure, request a quotation or to test some samples:
Tel: 01442 876 777 Email: sales@fullbrook.com |
MULTISAMPLE STABILITY ANALYSIS
Up to 3 samples can be analyzed at the same, making the Turbiscan TRI-LAB an extremely versatile instrument for comparison or multiple project use. Formulations and dispersions are analyzed without dilution or mechanical stress for real stability measurement. MEASUREMENT OF STABILITY & SIZE > Quantitative monitoring of dispersion stability > Shelf life & long term stability analysis > Migration velocity > Aggregation & agglomeration kinetics > Mean diameter > Dispersibility ratio > Volume fraction ACCELERATED AGING CONDITIONS Temperature control from 20 to 60°C offers the possibility to speed up measurement time and observe destabilization in real usage, storage, and shipping conditions. TURBISCAN technology is up to 200 times faster that traditional visual tests. TURBISCAN STABILITY INDEX TSI scale provides a single value to rapidly asses and rank formulation stability independently on occurring phenomena. It is now possible to evaluate sample stability with just one number. Learn more |
Take a look at the demonstration video below
The Turbiscan LAB enables fast and sensitive analysis of destabilization mechanisms such as creaming, sedimentation, flocculation, coalescence. A temperature-controlled measurement cell allows stability monitoring at specific storage temperatures.
The Turbiscan is being widely used for characterisation of concentrated emulsions suspensions and foams.
Contact us at Fullbrook Systems and to test some samples:
Tel: 01442 876 777 Email: sales@fullbrook.com
- no sample dilution
- fast results
- measure sedimentation rate
- flocculation and aggregation
- particle size information
- easy to use Turbiscan stability index
Contact us at Fullbrook Systems and to test some samples:
Tel: 01442 876 777 Email: sales@fullbrook.com
Technology - SMLS 880 nm
Sample Cell Volume - 4 or 20 ml Temperature range - 20 - 60°C Number of Samples - 1-3 Maximum sample conc. - 95% v/v Measured size range - 10 nm - 1mm Reproducibility / Repeatability - 0.1 % / 0.05% Acquisition scan step - 20µm Automatic sample recognition (bar-code) - Yes ISO CertificationTR 13097, TR 18811, TR 13014, TS 21357 Dimensions - 38 x 48 x 58 cm Weight - 35kg |
The TURBISCAN is the world reference technology for direct physical stability analysis. With simple sample preparation, intuitive software, and highly reliable measurements, Turbiscan TRILAB has become an irreplaceable tool for any formulator.
The instrument measures up to 3 samples at a time, on disposable 4 or 20mL glass cells, and at temperature from 20°C to 60°C. The stability reading can be done through the software and is also displays on the front LCD screen of the TRILAB for fast overview of the occurring stability measurement. TURBISCAN technologies are compliant with International Organization for Standardization guidelines for the characterization of dispersion stability (ISO/TR 13097, ISO/TR 18811) and particle size determination (ISO/TR 13014, ISO/TS 21357). |
How does a Turbiscan Lab work?
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Test anything from ink to cosmetics to pharmaceuticals,
including emulsions, suspensions and foams |
What can a Turbiscan Lab detect?
Migration Analysis
Local variation of light intensity corresponds to phases formation.
Turbiscan Stability Index
Turbiscan Stability Index is a one-click parameter to easily rank the stability of many samples in a kinetic way or in a data table. The higher the TSI is, the less stable the product is. |
Size Variation Analysis
Global variation of light intensity corresponds to size increase.
No Mechanical Stress
When it comes to shelf-life, and real-life evolution of the end-products, it makes no sense to apply a mechanical stress to a sample. Our measurements are always performed at rest, without any external stress. That way, you can be sure that the results you get are representative of what will happen in real life, only detected way earlier! |