Melt flow index
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The Melt Flow Index is a measure of the ease of flow of the melt of a thermoplastic polymer. It is defined as the weight of polymer in grams flowing in 10 minutes through a capillary of specific diameter and length by a pressure applied via prescribed alternative gravimetric weights for alternative prescribed temperatures. The method is given in ASTM D1238 and ISO 1133 (similar).
The melt flow rate is an indirect measure of molecular weight, high melt flow rate corresponding to low molecular weight. At the same time, the melt flow rate is a measure of the ability of the material's melt to flow under pressure. The melt flow rate is inversely proportional to the viscosity of the melt at the conditions of the test, though it should be born in mind that the viscosity for any such material depends on the applied force. Ratios between two melt flow rate values for one material at different gravimetric weights is often used as a measure for the broadness of the molecular weight distribution.
Melt flow rate is very commonly used for polyolefins, polyethylene being measured at 190°C and polypropylene at 230 C. The plastics converter should choose a material with a melt index so high that he can easily form the polymer in the molten state into the article intended, but on the other hand so low that the mechanical strength of the final article will be sufficient for its use.
Synonyms of Melt Flow Index are Melt Flow Rate and Melt Index. Actually, more commonly used are their abbreviations: MFI, MFR and MI.
Be aware that, confusingly, MFR is also a term often used for the ratio between two melt flow rates at different gravimetric weights. More accurately, this should be reported at the FRR (Flow rate ratio) or simply the flow ratio. The FRR is commonly used as an indication of the way in which the rheological behaviour is inflenced by the molecular mass distribution of the material.
[edit] References
A. V. Shenoy, D. R. Saini: Melt Flow Index: More Than Just a Quality Control Parameter. Part I., Advances in Polymer Technology, vol 6, No. 1, pages 1 - 58. ISO 1133:1997. ASTM D1238-04.