Contact
schliessen

Filtern

 

Bibliotheken

Logo der Bibliothek

Siegel TU Braunschweig Universitätsbibliothek Braunschweig
You do not seem to be within the network of Braunschweig University.
As student, researcher or staff member of Braunschweig University you can use the VPN service to gain access to electronic publications.
Alternatively, you can use your university username and password via Shibboleth to gain access to electronic publications with certain publishers. You can find more details in our Blog (in German).

Flow and jamming of granular suspensions in foams

The drainage of particulate foams is studied under conditions where the particles are not trapped individually by constrictions of the interstitial pore space. The drainage velocity decreases continuously as the particle volume fraction φp increases. The suspensions jam – and therefore drainage stop... Full description

Contained in: Soft Matter Vol. 10, No. 18 (2014), p. 3277-3283
Fulltext access:
Availability is being checked...
Interlibrary loan: Check possibility for interlibrary loan
Links: Additional Link (dx.doi.org)
ISSN: 1744-6848
Additional Keywords: KORNGROESSE
SUSPENSIONSSTROM
VOLUMENFRAKTION
DOI: 10.1039/c4sm00049h
Notes: Copyright: Metadaten: TEMA, Copyright WTI-Frankfurt eG
Copyright: (C) Alle Rechte beim Herausgeber
Physical Description: 7 Seiten, 28 Quellen
ID (e.g. DOI, URN): 10.1039/c4sm00049h
PPN (Catalogue-ID): WTI056274556
Note: WTI TEMA DB
more publication details ...

Associated Publications/Volumes

  • Associated records are being queried...
more (+)
Internes Format
LEADER 02033nma a2200337 c 4500
001 WTI056274556
003 DE-601
005 20190330183154.0
007 cr uuu---uuuuu
008 171223s2014 000 0 und d
024 7 |a 10.1039/c4sm00049h  |2 doi 
028 5 2 |a TEMA2015_wti_pica 
035 |a (DE-599)WTI20140723743 
040 |b ger  |c GBVCP 
084 |a A  |2 FIZTtc 
084 |a 3KS  |a 3PLK  |2 FON2006 
245 0 0 |a Flow and jamming of granular suspensions in foams  |h Elektronische Ressource 
300 |a Online-Ressource  |a 7 Seiten, 28 Quellen 
500 |a Copyright: Metadaten: TEMA, Copyright WTI-Frankfurt eG 
500 |a Copyright: (C) Alle Rechte beim Herausgeber 
520 |a The drainage of particulate foams is studied under conditions where the particles are not trapped individually by constrictions of the interstitial pore space. The drainage velocity decreases continuously as the particle volume fraction φp increases. The suspensions jam – and therefore drainage stops – for values φ*p which reveal a strong effect of the particle size. In accounting for the particular geometry of the foam, we show that φ*p accounts for unusual confinement effects when the particles pack into the foam network. We model quantitatively the overall behavior of the suspension – from flow to jamming – by taking into account explicitly the divergence of its effective viscosity at φ*p. Beyond the scope of drainage, the reported jamming transition is expected to have a deep significance for all aspects related to particulate foams, from aging to mechanical properties. 
653 4 |a VOLUMENFRAKTION 
653 4 |a SUSPENSIONSSTROM 
653 4 |a KORNGROESSE 
773 0 8 |i In  |t Soft Matter  |g Vol. 10, No. 18 (2014), p. 3277-3283  |q 10:18<3277-3283  |x 1744-6848  |x 1744-6848 
856 4 0 |u http://dx.doi.org/10.1039/c4sm00049h 
912 |a GBV_WTI 
950 |a Volumenfraktion  |a Suspensionsströmung  |a Partikelgröße  |2 DE-601 
950 |a effective viscosity  |2 DE-601 
951 |a AR 
952 |d 10  |j 2014  |e 18  |h 3277-3283