Ragunanth Venkatesh (Author), Arkady S. Voloshin (Author), Igor Emri (Author), Miha Brojan (Author), Edvard Govekar (Author)

Abstract

Based on the realization that Newtonian fluids have the unique property to redirect the forces applied to them in a perpendicular direction, a new apparatus, called the Granular Friction Analyzer (GFA), and the related GFA index, were proposed for characterizing the internal friction and related flow behavior of granular materials under uniaxial compression loading. The calculation of the GFA index is based on the integration of the internal pressure distribution along the cylinder wall, within which the granular material is being uniaxially compressed by a piston. In this paper an optical granular friction analyzer (O-GFA) is presented, where a digital image correlation (DIC) method is utilized to assess the cylinder strains used to calculate the internal pressure distribution. The main advantage of using the DIC method is that the starting point (piston-powder contact point) and the length of the integration considering the edge effects can be defined. By using the DIC full-field, instead of a few points strain measurements, a 2% improvement of the GFA indexʼs accuracy has been achieved and its robustness with respect to the number of points has been demonstrated. Using the parametric error analysis it has been shown that most of the observed total error (7.5%) arises from the DIC-method-based measurements of the strains, which can be improved by higher-resolution cameras and DIC algorithms for the strain evaluation. Additionally, it was shown that the GFA index can be used for determining the well-known Janssen model parameters. The latter was demonstrated experimentally, by testing three SS 316 L granular material samples with different mean particle sizes. The results confirm that the mean particle size regulates the internal friction of granular materials.

Keywords

granular materials;uniaxial compression;internal friction;flowability;digital image correlation;

Data

Language: English
Year of publishing:
Typology: 1.01 - Original Scientific Article
Organization: UL FS - Faculty of Mechanical Engineering
UDC: 531:62-492-026.772(045)
COBISS: 17018651 Link will open in a new window
ISSN: 0014-4851
Views: 272
Downloads: 118
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Other data

Secondary language: Slovenian
Secondary keywords: zrnati materiali;enoosno stiskanje;notranje trenje;pretočnost;korelacija digitalne slike;
Type (COBISS): Article
Pages: str. 481-492
Volume: ǂVol. ǂ60
Issue: ǂiss. ǂ4
Chronology: Apr. 2020
DOI: 10.1007/s11340-019-00570-8
ID: 12967713