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Rheologica Acta
Erschienen in: Rheologica Acta 2/2010

01.02.2010 | Original Contribution

Shear rheometry and visualization of glass fiber suspensions

verfasst von: Benjamín M. Marín-Santibáñez, José Pérez-González, Lourdes de Vargas

Erschienen in: Rheologica Acta | Ausgabe 2/2010

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Abstract

The nonlinear rheological behavior of short glass fiber suspensions has been investigated in this work by rotational rheometry and flow visualization. A Newtonian and a Boger fluid (BF) were used as suspending media. The suspensions exhibited shear thinning in the semidilute regime and weaker shear thinning in the transition to the concentrated one. Normal stresses and relative viscosity were higher for the BF suspensions than for the Newtonian ones presumably due to enhanced hydrodynamic interactions resulting from BF elasticity. In addition, relative viscosity of the suspensions increased rapidly with fiber content, suggesting that the rheological behavior in the concentrated regime is dominated by mechanical contacts between fibers. Visualization of individual fibers and their interactions under flow allowed the detection of aggregates, which arise from adhesive contacts. The orientation states of the fibers were quantified by a second order tensor and fast Fourier transforms of the flow field images. Fully oriented states occurred for shear rates around 20 s − 1. Finally, the energy required to orient the fibers was higher in step forward than in reversal flow experiments due to a change in the spatial distribution of fibers, from isotropic to planar oriented, during the forward experiments.
Vorheriger Artikel A differential model for the rheological properties of concentrated suspensions with weakly viscoelastic matrices
Nächster Artikel Large amplitude oscillatory shear of pseudoplastic and elastoviscoplastic materials

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Literatur
Advani SG, Tucker III CL (1987) The use of tensors to describe and predict fiber orientation in short fiber composites. J Rheol 31(8):751–784CrossRefADS
Aït-Kadi A, Grmela M (1994) Modeling the rheological behavior of fibre suspensions in viscoelastic media. J Non-Newton Fluid Mech 53:65–81CrossRef
Attanasio A, Bernini U, Gallopo P, Segré G (1972) Significance of viscosity measurements in microscopic suspensions of elongated particles. Trans Soc Rheol 16(1):147–154CrossRef
Barnes HA (2003) A review of the rheology of filled viscoelastic systems. In: Binding DM, Walters K (eds) Rheology reviews. The British Society of Rheology, Aberystwyth, pp 1–32
Batchelor GK (1971) The stress generated in non-dilute suspensions of elongated particles by pure staining motion. J Fluid Mech 46:813–829CrossRefADSMATH
Bibbo MA, Dinh SM, Armstrong RC (1985) Shear flow properties of semiconcentrated fiber suspensions. J Rheol 29(6):905–929CrossRefADS
Chaouche M, Koch D (2001) Rheology of non-Brownian rigid fiber suspensions with adhesive contacts. J Rheol 45(2):369–382CrossRefADS
Dihn SM, Armstrong RC (1984) A rheological equation state for semiconcentrated fiber suspensions. J Rheol 28(3):207–227CrossRefADS
Djalili-Moghaddan M, Toll S (2006) Fibre suspension rheology: effect of concentration, aspect ratio and fiber size. Rheol Acta 45:315–320CrossRef
Eberle PRA, Baird DG, Wapperon P (2008) Rheology of non-Newtonian fluids containing glass fibers: a review of experimental literature. Ind Eng Chem Res 47:3470–3488CrossRef
Fan Z, Advani SG (2005) Characterization of orientation state of carbon nanotubes in shear flow. Polymer 46:5232–5240CrossRef
Gadala-Maria F, Acrivos A (1980) Shear-induced structure in a concentrated suspension of solid spheres. J Rheol 24:799–814CrossRefADS
Ganani E, Powell RL (1985) Suspensions of rodlike particles: literature review and data correlations. J Compos Mater 19:194–215CrossRef
Gunes DZ, Scirocco R, Mewis J, Vermant J (2008) Flow-induced orientation of non-spherical particles: effect of aspect ratio and medium rheology. J Non-Newton Fluid Mech 155:39–50CrossRef
Keshtkar M, Heuzey MC, Carreau PJ (2009) Rheological behavior of fiber-filled model suspensions: effect of fiber flexibility. J Rheol 53(3):631–650CrossRefADS
Larson RG (1999) The structure and rheology of complex fluids. Oxford University Press, New York
Laun HM (1984) Orientation effects and rheology of short glass fiber-reinforced thermoplastics. Colloid Polym Sci 262:257–269CrossRef
Lipscomb GG, Denn MM, Hur DU (1988) The flow of fiber suspensions in complex geometries. J Non-Newton Fluid Mech 26:297–325CrossRef
Moldenaers P, Fuller GG, Mewis J (1989) Mechanical and optical rheometry of polymer liquid-crystal domain structure. Macromolecules 22:960–965CrossRefADS
Petrich MP, Koch DL (1998) Interactions between contacting fibers. Phys Fluids 10(8):2111–2113CrossRefADS
Petrich MP, Koch DL, Cohen C (2000) An experimental determination of the stress-microstructure relationship in semi-concentrated fiber suspensions. J Non-Newton Fluid Mech 95:101–133CrossRef
Petrie CJS (1999) The rheology of fibre suspensions. J Non-Newton Fluid Mech 87:369–402CrossRefMATH
Ramazani A, Aït-Kadi A, Grmela M (2001) Rheology of fiber suspensions in viscoelastic media: experiments and model predictions. J Rheol 45(4):945–962CrossRefADS
Schmid CF, Klingenberg DJ (2000) Mechanical flocculation in flowing fiber suspensions. Phys Rev Lett 84(2):290–293CrossRefPubMedADS
Scirocco R, Vermant J, Mewis J (2005) Shear thickening in filled Boger fluids. J Rheol 49(2):551–567CrossRefADS
Sepehr M, Carreau PJ, Moan M, Ausias G (2004a) Rheological properties of short fiber model suspensions. J Rheol 48(5):1023–1048CrossRefADS
Sepehr M, Ausias M, Carreau PJ (2004b) Rheological properties of short fiber filled polypropylene in transient shear flow. J Non-Newton Fluid Mech 123:19–32CrossRefMATH
Shenoy A (1999) Rheology of filled polymer systems. Kluwer, The Netherlands
Stover CA, Koch DL, Cohen C (1992) Observations of fibre orientation in simple shear flow of semi-dilute suspensions. J Fluid Mech 238:277–296CrossRefADS
Sundararajakumar RR, Koch D (1997) Structure and properties of a sheared fiber suspensions with mechanical contacts. J Non-Newton Fluid Mech 73:205–239CrossRef
Sung JH, Mewis J, Moldenaers P (2008) Transient rheological probing of PIB/hectorite-nanocomposites. Korea-Aust Rheol J 20:27–34
Zirnsak MA, Hur DU, Boger DV (1994) Normal stresses in fibres suspensions. J Non-Newton Fluid Mech 54:153–193CrossRef
Metadaten
Titel
Shear rheometry and visualization of glass fiber suspensions
verfasst von
Benjamín M. Marín-Santibáñez
José Pérez-González
Lourdes de Vargas
Publikationsdatum
01.02.2010
Verlag
Springer-Verlag
Erschienen in
Rheologica Acta / Ausgabe 2/2010
Print ISSN: 0035-4511
Elektronische ISSN: 1435-1528
DOI
https://doi.org/10.1007/s00397-009-0418-0

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