| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 598966 | Colloids and Surfaces B: Biointerfaces | 2016 | 8 Pages |
•A 2nd-order polynomial equation fits the effect of variables on rheological parameters.•The concentration of polysaccharides and rhamsan/welan ratio are the main variables.•Mechanical spectra and flow curves support the filler role of the surfactant used.•Blends of rhamsan/welan give intermediate viscoelasticity and low shear viscosities.•Dispersions of rhamsan gum yield more elastic mechanical spectra than welan gum.
Small amplitude oscillatory shear and steady shear flow properties of rhamsan gum and welan gum dispersions containing an eco-friendly surfactant (a polyoxyethylene glycerol ester) formulated to mimic the continuous phase of O/W emulsions were studied using the surface response methodology. A second order polynomial equation fitted the influence of surfactant concentration, rhamsan/welan mass ratio and total concentration of polysaccharides. Systems containing blends of rhamsan and welan did not show synergism but thermodynamic incompatibility and made it possible to adjust the linear viscoelastic and low shear rate flow properties to achieve values in between those of systems containing either rhamsan or welan as the only polysaccharide.All the systems studied exhibited weak gel rheological properties as the mechanical spectra displayed the plateau or rubber-like relaxation zone, the linear viscoelastic range was rather narrow and flow curves presented shear thinning behavior, which fitted the power-law equation. While mechanical spectra of the systems studied demonstrated that they did not control the linear viscoelastic properties of the corresponding emulsions, the blend of rhamsan and welan gums was able to control the steady shear flow properties.
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