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Volume 5

Issue 1 | Mar | pp. 3-380

1960

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Volume 1

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Mar 1961

Volume 5, Issue 1, pp. 3-380

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Presentation of the Bingham Medal to Bruno H. Zimm

F. D. Dexter

Trans. Soc. Rheol. 5, 3 (1961); http://dx.doi.org/10.1122/1.548880 (3 pages)

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Abstract Unavailable

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01.10.Cr	Announcements, news, and awards
01.60.+q	Biographies, tributes, personal notes, and obituaries

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Introduction to the Symposium on Mechanics of Continua

Hershel Markovitz

Trans. Soc. Rheol. 5, 7 (1961); http://dx.doi.org/10.1122/1.548881 (2 pages)

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Abstract Unavailable

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83.10.Ff	Continuum mechanics
83.80.Ab	Solids: e.g., composites, glasses, semicrystalline polymers

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On Variational Principle For Non‐Newtonian Fluids

M. W. Johnson, Jr.

Trans. Soc. Rheol. 5, 9 (1961); http://dx.doi.org/10.1122/1.548882 (13 pages)

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83.80.Hj	Suspensions, dispersions, pastes, slurries, colloids
83.80.Iz	Emulsions and foams
83.50.Ax	Steady shear flows, viscometric flow
47.50.-d	Non-Newtonian fluid flows

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Conservation Laws for Liquid Crystals

J. L. Ericksen

Trans. Soc. Rheol. 5, 23 (1961); http://dx.doi.org/10.1122/1.548883 (12 pages)

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83.80.Xz	Liquid crystals: nematic, cholesteric, smectic, discotic, etc.
83.10.Ff	Continuum mechanics

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Remarks on Materials of the Rate Type and the Principle of Determinism

B. Bernstein

Trans. Soc. Rheol. 5, 35 (1961); http://dx.doi.org/10.1122/1.548884 (6 pages)

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83.80.Sg	Polymer melts
83.60.Bc	Linear viscoelasticity
83.10.Gr	Constitutive relations

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Normal Stresses in Second‐Order Viscoelasticity

Bernard D. Coleman and Walter Noll

Trans. Soc. Rheol. 5, 41 (1961); http://dx.doi.org/10.1122/1.548907 (6 pages)

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Abstract Unavailable

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83.60.Bc	Linear viscoelasticity
83.10.Gr	Constitutive relations
47.11.-j	Computational methods in fluid dynamics

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Introduction to the Symposium on Rheology of Suspensions

Frederick H. Gaskins

Trans. Soc. Rheol. 5, 51 (1961); http://dx.doi.org/10.1122/1.548885 (1 page)

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83.80.Hj	Suspensions, dispersions, pastes, slurries, colloids
83.80.Iz	Emulsions and foams
83.50.Ax	Steady shear flows, viscometric flow
83.10.Bb	Kinematics of deformation and flow

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Application of the Method of Composition and Linear Regression Analysis to a Problem Involving a Pseudoplastic Suspension

W. F. Ames and V. C. Behn

Trans. Soc. Rheol. 5, 53 (1961); http://dx.doi.org/10.1122/1.548886 (14 pages)

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Abstract Unavailable

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83.80.Hj	Suspensions, dispersions, pastes, slurries, colloids
83.80.Iz	Emulsions and foams
83.10.Gr	Constitutive relations
83.60.La	Viscoplasticity; yield stress

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Flow Properties of Attapulgite Suspension in Water

A. F. Gabrysh, Taikyue Ree, H. Eyring, Nola McKee, and I. Cutler

Trans. Soc. Rheol. 5, 67 (1961); http://dx.doi.org/10.1122/1.548887 (18 pages)

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Abstract Unavailable

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83.80.Hj	Suspensions, dispersions, pastes, slurries, colloids
83.80.Iz	Emulsions and foams
83.50.Ax	Steady shear flows, viscometric flow
83.10.Gr	Constitutive relations

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The Rheology of Blood

Robert H. Haynes

Trans. Soc. Rheol. 5, 85 (1961); http://dx.doi.org/10.1122/1.548888 (17 pages)

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83.80.Lz	Physiological materials (e.g. blood, collagen, etc.)
83.85.Cg	Rheological measurements—rheometry
47.50.-d	Non-Newtonian fluid flows

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Shear Viscosities and Stress‐Relaxation Viscosity Parameters of Gelled Oils

Dean W. Criddle and Jay Cortes, Jr.

Trans. Soc. Rheol. 5, 103 (1961); http://dx.doi.org/10.1122/1.548889 (9 pages)

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83.80.Hj	Suspensions, dispersions, pastes, slurries, colloids
83.80.Iz	Emulsions and foams
83.10.Gr	Constitutive relations
83.60.Bc	Linear viscoelasticity

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The Normal Forces and their Thermodynamic Significance

Harry H. Hull

Trans. Soc. Rheol. 5, 115 (1961); http://dx.doi.org/10.1122/1.548890 (17 pages)

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47.50.-d	Non-Newtonian fluid flows
83.60.Bc	Linear viscoelasticity
83.80.Va	Elastomeric polymers

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A Method for the Measurement of Normal Stresses in Simple Shearing Flow

A. B. Metzner, W. T. Houghton, R. A. Sailor, and J. L. White

Trans. Soc. Rheol. 5, 133 (1961); http://dx.doi.org/10.1122/1.548891 (15 pages)

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Abstract Unavailable

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83.85.Lq	Normal stress difference measurements
83.50.Ax	Steady shear flows, viscometric flow
47.50.-d	Non-Newtonian fluid flows

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Experimental Tests of Symmetry Conditions in Laminar Flow

Wladimir Philippoff

Trans. Soc. Rheol. 5, 149 (1961); http://dx.doi.org/10.1122/1.548892 (14 pages)

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Abstract Unavailable

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83.80.Rs	Polymer solutions
83.80.Sg	Polymer melts
83.60.Hc	Normal stress differences and their effects (e.g. rod climbing)
83.10.Gr	Constitutive relations

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Elastic Stresses and Birefringence in Flow

Wladimir Philippoff

Trans. Soc. Rheol. 5, 163 (1961); http://dx.doi.org/10.1122/1.548893 (29 pages)

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83.50.Ax	Steady shear flows, viscometric flow
83.60.Bc	Linear viscoelasticity
83.10.Gr	Constitutive relations

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Flow Birefringence of Molten Polyethylene

F. D. Dexter, J. C. Miller, and W. Philippoff

Trans. Soc. Rheol. 5, 193 (1961); http://dx.doi.org/10.1122/1.548894 (12 pages)

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Abstract Unavailable

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83.80.Rs	Polymer solutions
83.80.Sg	Polymer melts
47.50.-d	Non-Newtonian fluid flows
83.10.Gr	Constitutive relations

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The Rheology of Polyelectrolytes. I. Flow Curves of Concentrated Poly(acrylic Acid) Solutions

John G. Brodnyan and E. Lloyd Kelley

Trans. Soc. Rheol. 5, 205 (1961); http://dx.doi.org/10.1122/1.548895 (16 pages)

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Abstract Unavailable

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83.80.Rs	Polymer solutions
83.80.Sg	Polymer melts
83.60.Df	Nonlinear viscoelasticity
47.50.-d	Non-Newtonian fluid flows

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Yield Stresses and Flow Properties of Carboxypolymethylene‐Water Systems

William H. Fischer, Walter H. Bauer, and Stephen E. Wiberley

Trans. Soc. Rheol. 5, 221 (1961); http://dx.doi.org/10.1122/1.548896 (15 pages)

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Abstract Unavailable

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83.80.Rs	Polymer solutions
83.80.Sg	Polymer melts
83.60.La	Viscoplasticity; yield stress
83.50.Ax	Steady shear flows, viscometric flow

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Upper Newtonian Regime in Polymer Solutions. I. Polystyrenes in Toluene

E. W. Merrill, H. S. Mickley, A. Ram, and G. Perkinson

Trans. Soc. Rheol. 5, 237 (1961); http://dx.doi.org/10.1122/1.548897 (10 pages)

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83.80.Rs	Polymer solutions
83.80.Sg	Polymer melts
83.80.Va	Elastomeric polymers
83.10.Gr	Constitutive relations

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An Equation for Non‐Newtonian Flow

Ralph Shangraw, Wayne Grim, and Albert M. Mattocks

Trans. Soc. Rheol. 5, 247 (1961); http://dx.doi.org/10.1122/1.548898 (14 pages)

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47.11.-j	Computational methods in fluid dynamics
47.50.-d	Non-Newtonian fluid flows
83.50.Ax	Steady shear flows, viscometric flow

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The Frequency and Temperature Dependence of the Dynamic Mechanical Properties of a High Density Polyethylene

H. Nakayasu, H. Markovitz, and D. J. Plazek

Trans. Soc. Rheol. 5, 261 (1961); http://dx.doi.org/10.1122/1.548899 (23 pages)

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Abstract Unavailable

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83.80.Sg	Polymer melts
83.85.Cg	Rheological measurements—rheometry
83.10.Gr	Constitutive relations

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Bulk Creep and Recovery in Systems with Viscosity Dependent upon Free Volume

A. J. Kovacs

Trans. Soc. Rheol. 5, 285 (1961); http://dx.doi.org/10.1122/1.548900 (12 pages)

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83.60.Bc	Linear viscoelasticity
83.10.Gr	Constitutive relations
83.80.Tc	Polymer blends

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A Theory for the Occurrence of Intrinsic Resonances in Stressed Solid Materials

S. R. Bodner

Trans. Soc. Rheol. 5, 297 (1961); http://dx.doi.org/10.1122/1.548901 (20 pages)

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83.10.Gr	Constitutive relations
83.10.Ff	Continuum mechanics
83.50.-v	Deformation and flow

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The Distribution of Pressures in the Roll Application of Newtonian Fluids

Raymond R. Myers and Ray D. Hoffman

Trans. Soc. Rheol. 5, 317 (1961); http://dx.doi.org/10.1122/1.548902 (12 pages)

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83.50.Ha	Flow in channels
83.80.Rs	Polymer solutions
83.80.Sg	Polymer melts
83.50.Ax	Steady shear flows, viscometric flow

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Capillary Rheometry as a Technique for Predicting Processing of Elastomers

C. C. McCabe and N. N. Mueller

Trans. Soc. Rheol. 5, 329 (1961); http://dx.doi.org/10.1122/1.548903 (12 pages)

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Abstract Unavailable

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83.80.Va	Elastomeric polymers
83.60.Bc	Linear viscoelasticity
47.60.-i	Flow phenomena in quasi-one-dimensional systems

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Effect of Die Entry Geometry on Polymer Melt Fracture and Extrudate Distortion

E. B. Bagley and H. P. Schreiber

Trans. Soc. Rheol. 5, 341 (1961); http://dx.doi.org/10.1122/1.548904 (13 pages)

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Abstract Unavailable

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83.80.Rs	Polymer solutions
83.80.Sg	Polymer melts
83.60.Uv	Wave propagation, fracture, and crack healing
83.80.Va	Elastomeric polymers

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The Separation of Elastic and Viscous Effects in Polymer Flow

E. B. Bagley

Trans. Soc. Rheol. 5, 355 (1961); http://dx.doi.org/10.1122/1.548905 (14 pages)

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Abstract Unavailable

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47.50.-d	Non-Newtonian fluid flows
83.80.Rs	Polymer solutions
83.80.Sg	Polymer melts
83.60.Bc	Linear viscoelasticity

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Flow and Shape of Drops in Non‐Newtonian Fluids

A. Fararoui and R. C. Kintner

Trans. Soc. Rheol. 5, 369 (1961); http://dx.doi.org/10.1122/1.548906 (12 pages)

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Abstract Unavailable

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47.50.-d	Non-Newtonian fluid flows
83.80.Hj	Suspensions, dispersions, pastes, slurries, colloids
83.80.Iz	Emulsions and foams
83.50.Ax	Steady shear flows, viscometric flow

BROWSE VOLUMES

Mar 1961

Volume 5, Issue 1, pp. 3-380

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