Litcius/Paper detail

Characterization of the Bulk Flow Properties of Industrial Powders from Shear Tests

Domenico Macrì, Roberto Chirone, Hamid Salehi, Daniele Sofia, Massimiliano Materazzi, Diego Barletta, Paola Lettieri, Massimo Poletto

2020Processes17 citationsDOIOpen Access PDF

Abstract

Bulk flow properties from shear analysis of compacted powders can be evaluated following different approaches. Experimental values of shear stresses obtained by conventional shear cells are traditionally used to build yield loci, from which the most relevant flow properties could be found. Such flow properties play an important role in determining their performance under fluidization conditions. In this work, a useful app, named cYield, was developed by using the new Matlab’s App Developer environment. This tool enables users to calculate both linear (Coulomb) and non-linear (Warren–Spring) yield loci as the best fitting of the σ-τ experimental shear points. It also provides a wide range of statistical information related to the quality of the outcomes obtained. The different features of the tool are presented, and the crucial steps for the execution of its calculations are illustrated. Moreover, it has been applied for the yield loci analysis of four different materials traditionally used in manufacturing processes. The results confirm that the flow behavior of many industrial powders, especially if cohesive, is better described by a non-linear yield locus.

Topics & Concepts

Shear (geology)Flow propertiesShear flowYield (engineering)Materials scienceFlow (mathematics)MechanicsComputer scienceComposite materialPhysicsGranular flow and fluidized bedsMineral Processing and GrindingRheology and Fluid Dynamics Studies