Internal Friction Angle of Metal Powders

Internal Friction Angle of Metal Powders

Metal powders are components with multidisciplinary usage as their application is very broad. Their consistent characterization across all disciplines is important for ensuring repeatable and trouble-free processes. Ten metal powders were tested in the study. In all cases, the particle size distribu...

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Main Authors: Jiri Zegzulka, Daniel Gelnar, Lucie Jezerska, Alvaro Ramirez-Gomez, Jan Necas, Jiri Rozbroj
Format: Article
Language:English
Published: MDPI AG 2018-04-01
Series:Metals
Subjects:
metal powders
particle size distribution
particle shape
angle of internal friction
piston mechanism
Online Access:http://www.mdpi.com/2075-4701/8/4/255
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spelling doaj-b442c7cad69c486093bbbc7dc329103a2020-11-24T22:54:26ZengMDPI AGMetals2075-47012018-04-018425510.3390/met8040255met8040255Internal Friction Angle of Metal PowdersJiri Zegzulka0Daniel Gelnar1Lucie Jezerska2Alvaro Ramirez-Gomez3Jan Necas4Jiri Rozbroj5VSB-TU Ostrava, ENET CENTRE–Energy Utilization of Non-traditional Energy Sources, Bulk Solids Centre, 17. listopadu 15, 70833 Ostrava, Czech RepublicVSB-TU Ostrava, ENET CENTRE–Energy Utilization of Non-traditional Energy Sources, Bulk Solids Centre, 17. listopadu 15, 70833 Ostrava, Czech RepublicVSB-TU Ostrava, ENET CENTRE–Energy Utilization of Non-traditional Energy Sources, Bulk Solids Centre, 17. listopadu 15, 70833 Ostrava, Czech RepublicTechnical University of Madrid, Department of Mechanical, Chemical and Industrial Design Engineering, Ronda de Valencia 3, 28012 Madrid, SpainVSB-TU Ostrava, ENET CENTRE–Energy Utilization of Non-traditional Energy Sources, Bulk Solids Centre, 17. listopadu 15, 70833 Ostrava, Czech RepublicVSB-TU Ostrava, ENET CENTRE–Energy Utilization of Non-traditional Energy Sources, Bulk Solids Centre, 17. listopadu 15, 70833 Ostrava, Czech RepublicMetal powders are components with multidisciplinary usage as their application is very broad. Their consistent characterization across all disciplines is important for ensuring repeatable and trouble-free processes. Ten metal powders were tested in the study. In all cases, the particle size distribution and morphology (scanning electron microscope—SEM photos) were determined. The aim of this work was to inspect the flow behavior of metal powders through another measured characteristic, namely the angle of internal friction. The measured values of the effective internal friction angle in the range 28.6–32.9°, together with the spherical particle shape and the particle size distribution, revealed the likely dominant mode of the metal particle transfer mechanism for stainless steel 316L, zinc and aluminum powder. This third piston flow mechanism is described and illustrated in detail. The angle of internal friction is mentioned as another suitable parameter for the characterization of metal powders, not only for the relative simplicity of the determination but also for gaining insight into the method of the movement of individual particles during the flow.http://www.mdpi.com/2075-4701/8/4/255metal powdersparticle size distributionparticle shapeangle of internal frictionpiston mechanism
collection DOAJ
language English
format Article
sources DOAJ
author Jiri Zegzulka
Daniel Gelnar
Lucie Jezerska
Alvaro Ramirez-Gomez
Jan Necas
Jiri Rozbroj
spellingShingle Jiri Zegzulka
Daniel Gelnar
Lucie Jezerska
Alvaro Ramirez-Gomez
Jan Necas
Jiri Rozbroj
Internal Friction Angle of Metal Powders
Metals
metal powders
particle size distribution
particle shape
angle of internal friction
piston mechanism
author_facet Jiri Zegzulka
Daniel Gelnar
Lucie Jezerska
Alvaro Ramirez-Gomez
Jan Necas
Jiri Rozbroj
author_sort Jiri Zegzulka
title Internal Friction Angle of Metal Powders
title_short Internal Friction Angle of Metal Powders
title_full Internal Friction Angle of Metal Powders
title_fullStr Internal Friction Angle of Metal Powders
title_full_unstemmed Internal Friction Angle of Metal Powders
title_sort internal friction angle of metal powders
publisher MDPI AG
series Metals
issn 2075-4701
publishDate 2018-04-01
description Metal powders are components with multidisciplinary usage as their application is very broad. Their consistent characterization across all disciplines is important for ensuring repeatable and trouble-free processes. Ten metal powders were tested in the study. In all cases, the particle size distribution and morphology (scanning electron microscope—SEM photos) were determined. The aim of this work was to inspect the flow behavior of metal powders through another measured characteristic, namely the angle of internal friction. The measured values of the effective internal friction angle in the range 28.6–32.9°, together with the spherical particle shape and the particle size distribution, revealed the likely dominant mode of the metal particle transfer mechanism for stainless steel 316L, zinc and aluminum powder. This third piston flow mechanism is described and illustrated in detail. The angle of internal friction is mentioned as another suitable parameter for the characterization of metal powders, not only for the relative simplicity of the determination but also for gaining insight into the method of the movement of individual particles during the flow.
topic metal powders
particle size distribution
particle shape
angle of internal friction
piston mechanism
url http://www.mdpi.com/2075-4701/8/4/255
work_keys_str_mv AT jirizegzulka internalfrictionangleofmetalpowders
AT danielgelnar internalfrictionangleofmetalpowders
AT luciejezerska internalfrictionangleofmetalpowders
AT alvaroramirezgomez internalfrictionangleofmetalpowders
AT jannecas internalfrictionangleofmetalpowders
AT jirirozbroj internalfrictionangleofmetalpowders
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