Viscosity oligo-polyols

All the oligo-polyols are used to build the polyurethane high MW structure in a reactive process, as a consequence of the oligo-polyols terminal hydroxyl group reaction with polyisocyanates. The reactivity of oligo-polyols in polyurethane fabrication is a very important practical characteristic. Reactivity is a measure of the reaction rate of an oligo-polyol with an isocyanate in order to make the final polyurethane polymer. One practical method is the measurement of viscosity, in time, by Brookfield Viscosity Test (BVT), especially used to determine the reactivity of ethylene oxide capped polyether polyols. Figure 3.12 shows the effect of the primary hydroxyl content upon the reactivity of ethylene-oxide capped polyether triols of MW of 5,000 daltons. 

It is observed that the oligo-polyols with low reactivity (0% primary hydroxyl, i.e., having only secondary hydroxyls) have the lowest viscosity increase over time. By contrast, the very high reactivity polyols, having 85-100% primary hydroxyl content, have the highest viscosity increase over time. As a consequence, this method of evaluation of viscosity increase in time is a very simple and useful practical method to ascertain the reactivity of oligo-polyols. 

The oligo-polyol s viscosity is determined using a Brookfield viscosimeter. The Standard Test Method for oligo-polyol viscosity determination is ASTM D4878 [37]. There are two test methods, A and B, applicable for viscosities between 0.01 to 1000 Pa-s, at 25 °C, or for solid polyols (such as polytetrahydrofuran), at 50 °C. Test method A is indicated for oligo-polyols of very high viscosities. 

To conclude, the common physico-chemical characteristics of oligo-polyols for polyurethanes determined by standard analytical methods are hydroxyl number, hydroxyl percentage, primary hydroxyl content, molecular weight, equivalent weight, molecular weight distribution, viscosity, specific gravity, acidity and colour (See Chapters 3.1-3.11). 

All oligo-polyols are liquid at room temperature or at low temperatures (40-60 °C) and due to the low viscosities are very easy to process to high MW polyurethanes. 

The majority of oligo-polyols are liquid or very low melting point solids and due to the low viscosities (much lower than those of melted polymers) are very easy and economical to process to form high molecular weight polyurethanes. 

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