Publisher DOI: 10.1016/j.powtec.2016.12.028
Title: Using dilute spouting for fabrication of highly filled metal-polymer composite materials
Language: English
Authors: Eichner, Eduard 
Salikov, Vitalij 
Bassen, Pia-Kristina 
Heinrich, Stefan 
Schneider, Gerold A. 
Keywords: Dilute spouting;Electrical conductivity;Fine particles;Granulation;Metal-polymer composites;Spouted bed
Issue Date: 13-Dec-2016
Publisher: Elsevier Science
Source: Powder Technology (316): 426-433 (2017)
Journal or Series Name: Powder technology 
Abstract (english): This contribution deals with a spouted bed process used for combining of particles and a polymer matrix in order to fabricate highly filled composite materials. The questions how a spouted bed can be used for processing of μm-sized particles and how the apparatus for this aim looks like will be addressed, as well as the flow regime of fine particles will be described. Regarding the mechanical properties of fabricated composite materials the key requirement for the granulation procedure in spouted bed is the continuity of the polymer layers deposited on particles. To evaluate this property electrically conducting copper particles and measurements of electrical resistivity of assembled composite materials were used. The resistivity of produced composite materials rises by up to 15 orders of magnitude in comparison to the compacted pure copper particles. The material remains an insulator up to a very high filling degree of about 74 vol.% of copper. The results show an outstanding capacity of a spouted bed for deposition of uniform thin coating layers on μm-sized particles. Further increase of filling degrees leads to a strong degradation of both the electrical resistivity and mechanical properties of composite, such as strength and elastic modulus.
URI: http://hdl.handle.net/11420/3486
ISSN: 0032-5910
Institute: Feststoffverfahrenstechnik und Partikeltechnologie V-3 
Keramische Hochleistungswerkstoffe M-9 
Type: (wissenschaftlicher) Artikel
Funded by: Financial support from the German Research Foundation (DFG) via SFB 986 “M3”, projects A3 and A6.
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