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Sliding plate rheometry of planar oriented concentrated fiber suspension
- Artikel/kapitelEngelska1997
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- 1997
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- LIBRIS-ID:oai:DiVA.org:kth-80050
- https://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-80050URI
- https://doi.org/10.1007/BF00396326DOI
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- Språk:engelska
- Sammanfattning på:engelska
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- References: Agassant, J.-F., Avenas, P., Sergent, J.-Ph., Carreau, P.J., (1991) Polymer Processing Principles and Modeling, , Hanser Publishers, Munich; Ausias, G., Agassant, J.-F., Vincent, M., Lafleur, P.G., Lavoie, P.A., Carreau, P.J., Rheology of short glass fiber reinforced polypropylene (1992) J Rheol, 36 (4), pp. 525-542; Batchelor, G.K., The stress system in a suspension of force-free particles (1970) J Fluid Mech, 41, pp. 545-570; Becraft, M.L., Metzner, A.B., The rheology, fiber orientation, and processing behavior of fiber-filled fluids (1992) J Rheol, 36 (1), pp. 143-174; Bibbo, M.A., Armstrong, R.C., Rheology of semi-concentrated fiber suspensions in Newtonian and non-Newtonian liquids (1988) The Manufacturing Science of Composites, 4, pp. 105-118. , Gutowski TG (ed) ASME; Cameron, A., (1966) Principles of Lubrication, , Longmans Green, London; Chan, Y., White, J.L., Oyanagi, Y., A fundamental study of the rheological behavior of glass-fiber-reinforced polyethylene and polystyrene melts (1978) J Rheol, 22 (5), pp. 507-524; Creasy, T.S., Advani, S.G., Okine, R.K., Transient rheological behavior of a long discontinuous fiber-melt system (1996) J Rheol, 40 (4), pp. 497-519; Cross, M.M., Kaye, A., Techniques for the viscometry of suspensions (1986) Polymer Eng Sci, 26 (2), pp. 121-126; Demarquette, N.R., Dealy, J.M., Nonlinear viscoelasticity of concentrated polystyrene solutions (1992) J Rheol, 36 (6), pp. 1007-1032; Dinh, S.M., Armstrong, R.C., A rheological equation of state for semiconcentrated fiber suspensions (1984) J Rheol, 28 (3), pp. 207-227; Dodge, J.S., Krieger, I.M., Oscillatory shear of nonlinear fluids (1971) Trans Soc Rheol, 15 (4), pp. 589-601; Ganani, E., Powell, R.L., Rheological properties of rodlike particles in a Newtonian and a non-Newtonian fluid (1986) J Rheol, 30 (5), pp. 995-1013; Giacomin, A.J., (1993), Private communicationGiacomin, A.J., Samurkas, T., Dealy, J.M., A novel sliding plate rheometer for molten plastics (1989) Polymer Eng Sci, 29 (8), pp. 499-504; (1993) The True Shear Rheometer, , Eden Prairie (Minneapolis), Minnesota, USA; Kitano, T., Kataoka, T., Nagatsuka, Y., Dynamic flow properties of vinylon- and glass-fiber reinforced polyethylene melts (1984) Rheol Acta, 23, pp. 408-416; Kitano, T., Kataoka, T., Nagatsuka, Y., Shear flow rheological properties of vinylon- and glass-fiber reinforced polyethylene melts (1984) Rheol Acta, 23, pp. 20-30; Laun, H.M., Orientation effects and rheology of short glass fiber-reinforced thermoplastics (1984) Colloid & Polymer Sci, 262, pp. 257-269; Laven, J., Stein, H.N., The Einstein coefficient of suspensions in generalized Newtonian liquids (1991) J Rheol, 33 (8), pp. 1523-1549; Meissner, J., Basic parameters, melt rheology, processing and end-use properties of three similar low density polyethylene samples (1975) Pure Appl Chem, 42, pp. 553-612; Metzner, A.B., Rheology of suspensions in polymeric liquids (1985) J Rheol, 29 (6), pp. 739-775; Mills, N.J., The rheology of filled polymers (1971) J Appl Polym Sci, 15, pp. 2791-2805; Minagawa, N., White, J.L., The influence of titanium dioxide on the rheological and extrusion properties of polymer melts (1976) J Appl Polymer Sci, 20, pp. 501-523; Mutel, A.T., Kamal, M.R., Characterization of the rheological behavior of fiber-filled polypropylene melts under steady and oscillatory shear using cone-and-plate and rotational parallel rheometry (1986) Polym Comp, 7 (5), pp. 289-294; Nguyen, Q.D., Boger, D.V., Measuring the flow properties of yield stress fluids (1992) Ann Rev Fluid Mech, 24, pp. 47-88; Oakley, J.G., Giacomin, A.J., (1992) A Sliding Plate Melt Rheometer to Measure the Normal Thrust in Large Amplitude Oscillatory Shear, pp. 1752-1754. , ANTEC SPE, Detroit. Published by: Society of Plastics Engineers, Inc (SPE) Brookfield; Onogi, S., Mikami, Y., Matsumoto, T., The rheology of suspensions of titanate fibers in polymer solution (1977) Polymer Eng Sci, 17 (1), pp. 1-8; Orbey, N., Dealy, J.M., Determination of the relaxation spectrum from oscillatory shear data (1991) J Rheol, 35 (6), pp. 1035-1049; Owen, M.J., Thomas, D.H., Found, M.S., Flow, fibre orientation and mechanical property relationships in polyester DMC (1978) Proc 33rd SPI Conf; Powell, R.L., Rheology of suspensions of rodlike particles (1991) J Stat Phys, 62 (5-6), pp. 1073-1094; Roberts, R.W., Jones, R.S., Rheological characterization of continuous fibre composits in oscillatory shear flow (1995) Comp Manuf, 6 (3-4), pp. 161-167; Shaqfeh, E.S.G., Fredrickson, G.H., The hydrodynamic stress in a suspension of rods (1990) Phys Fluids A, 2, pp. 7-25; Toll, S., MÃ¥nson, J.-A.E., The non-hydrodynamic stress system in a planar concentrated fiber suspension (1994) J Rheol, 38 (4), pp. 985-997; Toll, S., Ericsson, K.A., Zuber, A., MÃ¥nson, J.-A.E., Packing of discontinuous fibres (1993) ICCM-9, 3, pp. 391-397; Toll, S., MÃ¥nson, J.-A.E., Elastic compression of a fibre network (1995) J Appl Mech, 62 (1), pp. 223-226; Utracki, L.A., The rheology of two-phase flows (1988) Rheological Measurement, pp. 479-594. , Collyer AA, Clegg DW (eds) Elsevier; White, J.L., Czarnecki, L., Tanaka, H., Experimental studies of the influence of particle and fiber reinforcement on the rheological properties of polymer melts (1980) Rubber Chem Tech, 53, pp. 823-835. QC 20120309NR 20140805
- The rheology of concentrated planar fiber suspensions is investigated. A new experimental technique for fiber suspensions based on a sliding plate rheometer incorporating a shear stress transducer is developed. It is shown that this instrument works well for the tested material systems. The Theological behavior in steady shear is subsequently investigated. The results can be largely explained by a combination of frictional and hydrodynamic interaction. Despite this evidence of friction no yield stress could be detected for the investigated shear rates. It was also found that the fiber aspect ratio did not influence the steady shear viscosity.
Ämnesord och genrebeteckningar
- TEKNIK OCH TEKNOLOGIER Maskinteknik Teknisk mekanik hsv//swe
- ENGINEERING AND TECHNOLOGY Mechanical Engineering Applied Mechanics hsv//eng
- Composites
- Concentrated fiber suspensions
- Non-hydrodynamic interaction
- Sliding plate rheometer
- fiber
- rheology
- sliding
- suspension
- fibres
Biuppslag (personer, institutioner, konferenser, titlar ...)
- Toll, StaffanKTH,Lättkonstruktioner(Swepub:kth)u1uia8lm (författare)
- Månson, J. -AE. (författare)
- KTHLättkonstruktioner (creator_code:org_t)
Sammanhörande titlar
- Ingår i:Rheologica Acta36:4, s. 397-4050035-45111435-1528
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