“Further Experiments on Steady Separated Flows Past Bluff Objects,” A. Acrivos, L. G. Leal, D. D. Snowden and F. Pan, J. Fluid Mechanics 34, 25 (1968).

“The Effect of Base Bleed on the Steady Separated Flow Past Bluff Objects,” L. G. Leal and A. Acrivos, J. Fluid Mechanics 38, 735 (1969).

4.

“A Study of Steady Closed Streamline Flow at Large Reynolds Number,” PhD Thesis, Stanford University, February 1969.

“On the Effect of Particle Couples on the Motion of Dilute Suspensions of Spheroids,” L. G. Leal, J. Fluid Mechanics 46, 395 (1971).

“The Effect of Weak Brownian Rotations on (Spheroidal) Particles in Shear Flow,” L. G. Leal and E. J. Hinch, J. Fluid Mechanics 46, 685 (1971).

“On the Motion of Gas Bubbles in a Viscoelastic Liquid,” L. G. Leal, J. Skoog and A. Acrivos, Canadian J. Chem. Eng. 49, 569 (1971).

“The Effect of Brownian Motion on the Rheological Properties of a Suspension of Non-Spherical Particles,” E. J. Hinch and L. G. Leal, J. Fluid Mechanics 52, 683 (1972).

“A Note on Streaming Double Refraction in a Dilute Suspension of Rigid Spheroids Subject to Weak Brownian Rotations,” L. G. Leal and E. J. Hinch, Rheologica Acta 11, 190 (1972).

“The Rheology of a Suspension of Nearly Sperical Particles Subject to Brownian Rotations,” L. G. Leal and E. J. Hinch, J. Fluid Mechanics 55, 745 (1972).

“Note on the Rheology of a Dilute Suspension of Dipolar Spheres with Weak Brownian Couples,” L. G. Leal and E. J. Hinch, J. Fluid Mechanics 56, 803 (1972).

“Steady Separated Flow in a Linearly Decelerated Free Stream,” L. G. Leal, J. Fluid Mechanics 59, 513 (1973).

“On the Effective Conductivity of a Dilute Suspension of Spherical Drops in the Limit of Low Particle Peclet Number,” L. G. Leal, Chem. Eng. Commun. 1, 21 (1973).

“Combined Forced and Free Convection Heat Transfer from a Horizontal Flat Plate,” L. G. Leal, J. Applied Maths. and Physics (ZAMP) 24 (1973).

“Time-Dependent Shear Flows of a Suspension of Particles with Weak Brownian Rotations,” E. J. Hinch and L. G. Leal, J. Fluid Mechanics 57, 753 (1973).

“Theoretical Studies of a Suspension of Rigid Particles Affected by Brownian Couples,” L. G. Leal and E. J. Hinch, Proc. Sixth International Congress of Rheology, Rheologica Acta 12, 127 (1973).

“Combined Forced and Free Convection Flow Past a Horizontal Flat Plate,” G. E. Robertson, J. H. Seinfeld and L. G. Leal, AIChE J. 19, 998 (1973).

“Natural Convection Flow in an Enclosed Cavity of Small Aspect Ratio with Differentially Heated Side Walls: Part I, Asymptotic Theory,” D. E. Cormack, L. G. Leal and J. Imberger, J. Fluid Mechanics 65, 209 (1974).

Comments on “High Rayleigh Number Convection in an Enclosure - A Numerical Study,” D. E. Cormack and L. G. Leal, Physics of Fluids 17, 1049 (1974).

“Natural Convection Flow in an Enclosed Cavity of Small Aspect Ratio with Differentially Heated Side Walls: Part II, Numerical Solutions,” D. E. Cormack, L. G. Leal and J. H. Seinfeld, J. Fluid Mechanics 65, 231 (1974).

“Inertial Migration of Rigid Spheres in Two-Dimensional Unidirectional Flows,” B. P. Ho and L. G. Leal, J. Fluid Mechanics 65, 365 (1974).

“The Slow Motion of Slender Rod-Like Particles in a Second Order Fluid,” L. G. Leal, J. Fluid Mechanics 69, Pt. 2, 305 (1975).

“The Effect of Upper Surface Conditions on Convection in a Shallow Cavity with Differentially Heated End- Walls,” D. E. Cormack, G. P. Stone and L. G. Leal, Int. J. Heat and Mass Transfer 18, 635 (1975).

“Constitutive Equations in Suspension Mechanics. Part I, General Formulation,” E. J. Hinch and L. G. Leal, J. Fluid Mechanics 71, 481 (1975).

“Dissolution of a Stationary Gas Bubble in a Viscoelastic Fluid,” E. Zana and L. G. Leal, I&EC Fundamentals 14, 175 (1975).

“The Creeping Motion of Liquid Drops Through a Circular Tube of Comparable Diameter,” B. P. Ho and L. G. Leal, J. Fluid Mechanics 71, 361 (1975).

“The Effect of Deformation on the Effective Conductivity of a Dilute Suspension of Drops in the Limit of Low Particle Peclet Number,” T. J. McMillen and L. G. Leal, Int. J. Multiphase Flow 2, 105 (1975).

“A Note on the Creeping Motion of a Viscoelastic Fluid Past a Sphere,” E. Zana, G. Tiefenbruck and L. G. Leal, Rheologica Acta 14, 891 (1975).

“Wakes in Stratified Flow Past a Hot or Cold Two-Dimensional Body,” G. E. Robertson, J. H. Seinfeld and L. G. Leal, J. Fluid Mechanics 75, 233 (1976).

“Constitutive Equations in Suspension Mechanics. Part II, Approximate Forms for a Suspension of Rigid Particles Affected by Brownian Couples,” E. J. Hinch and L. G. Leal, J. Fluid Mechanics 76, 187 (1976).

“A Review of the Dynamics of Bubbles and Drops in a Viscoelastic Fluid,” E. Zana and L. G. Leal, Proceedings of the International Colloquium on Drops and Bubbles, 1976, Ed. Collins, Plesset and Saffren, Vol. II, p. 428.

“Migration of Rigid Spheres in a Two-Dimensional Unidirectional Shear Flow of a Second-Order Fluid,” B. P. Ho and L. G. Leal, J. Fluid Mechanics 76, 783 (1976).

“The Effective Conductivity of Dilute Suspensions,” L. G. Leal and T. J. McMillen, Archives of Mechanics/Archiwum Mechaniki Stosowanej 23, 483 (1976).

“Approximate Constitutive Forms in Suspension Mechanics,” L. G. Leal, Proceedings of the Seventh International Congress on Rheology, Gothenberg, Sweden, p. 392 (1976).

“Rods Falling near a Vertical Wall,” W. B. Russell, E. J. Hinch, L. G. Leal and G. Tiefenbruck, J. Fluid Mechanics 83, 273 (1977).

“Macroscopic Transport Properties of a Sheared Suspension,” L. G. Leal, J. Colloid and Interface Sci. 58, 296 (1977); also reprinted in J. Colloid and Interface Sci., Vol. 1, Plenary and Invited Lectures, Ed. M. Kerker, A. C. Zettlemoyer and R. L. Powell, Academic Press (1977).

“A Note on the Motion of a Spherical Particle in a General Quadratic Flow of a Second-Order Fluid,” P. C.-H. Chan and L. G. Leal, J. Fluid Mechanics 82, 549 (1977).

“A Model of Surface Diffusion on Solids,” H. Brenner and L. G. Leal, J. Colloid and Interface Sci. 62 (2) 238 (1977).

“The Dynamics and Dissolution of Gas Bubbles in a Viscoelastic Fluid,” E. Zana and L. G. Leal, Int. J. Multiphase Flow 4, 237 (1978).

“An Evaluation of Mean Reynolds Stress Turbulence Models: The Triple Velocity Correlation,” L. G. Leal, J. H. Seinfeld and D. E. Cormack, J. Fluid Engineering 100, 47 (1978).

“A Micromechanical Derivation of Fick's Law for Interfacial Diffusion of Surfactant Molecules,” H. Brenner and L. G. Leal, J. Colloid and Interface Sci. 65, 191 (1978).

“Interfacial Resistance to Interphase Mass Transfer in Quiescent Two-Phase Systems,” H. Brenner and L. G. Leal, AIChE J. 24, 246 (1978).

“Micromechanical Models for Interfacial Transport Phenomena,” L. G. Leal and H. Brenner, Proceedings of the Levich Birthday Conference on Physical Chemistry and Hydrodynamics (1978).

“Light Scattering from Spheroids in Shear Flows. Part I, The Orientation Correlation,” C. Cohen and L. G. Leal, J. Chem. Physics 68, 5348 (1978).

“The Bulk Heat Flux for a Sheared Suspension of Rigid Spheroids at Low Particle Peclet Number,” T. J. McMillen and L. G. Leal, J. Coll. Int. Sci. 69, 45 (1979).

“Rotation of Small Non-Axisymmetric Particles in a Simple Shear Flow,” E. J. Hinch and L. G. Leal, J. Fluid Mechanics 92, 591 (1979).

“The Motion of a Deformable Drop in a Second-Order Fluid,” P. Chan and L. G. Leal, J. Fluid Mechanics 92, 131 (1979).

“The Motion of Small Particles in Non-Newtonian Fluids,” L. G. Leal, J. Non-Newtonian Fluid Mechanics 5, 33 (1979).

“Motion of a Sphere in the Presence of a Plane Interface. Part 1, An Approximate Solution by Generalization of the Method of Lorentz,” S. H. Lee, R. S. Chadwick and L. G. Leal, J. Fluid Mechanics 93, 705 (1979).

“A Note on Rods Falling near a Vertical Wall in a Viscoelastic Liquid,” G. Tiefenbruck and L. G. Leal, J. Non-Newtonian Fluid Mechanics 6, 201 (1980).

“A Note on the Slow Motion of a Bubble in a Viscoelastic Liquid,” G. Tiefenbruck and L. G. Leal, J. Non-Newtonian Fluid Mechanics 7, 257 (1980).

“The Measurement of Velocity Gradients in Laminar Flow by Homodyne Light Scattering Spectroscopy,” G. Fuller, J. M. Rallison, R. L. Schmidt and L. G. Leal, J. Fluid Mechanics 100, 555 (1980).

“Motion of a Sphere in the Presence of a Plane Interface. Part 2, Exact Solutions Using Bipolar Coordinates,” S. H. Lee and L. G. Leal, J. Fluid Mechanics 98, 193 (1980).

“Natural Convection in a Shallow Annular Cavity,” G. P. Merker and L. G. Leal, Int. J. Heat Mass Transfer 23, 677 (1980).

“Particle Motions in a Viscous Fluid,” L. G. Leal, Annual Reviews of Fluid Mechanics 12, 435 (1980).

“Studies of the Flow-Induced Stretching of a Macromolecule in a Dilute Solution,” L. G. Leal, G. G. Fuller and W. L. Olbricht, Prog. in Astronautics and Aeronautics 72, 351 (1980).

“Flow Birefringence of Dilute Polymer Solutions in Two-Dimensional Flows,” G. G. Fuller and L. G. Leal, Rheol. Acta 19, 580 (1980).

“Effect of Molecular Weight and Flow Type on Flow Birefringence of Dilute Polymer Solutions,” Proc . Int. Congress of Rheology, Naples , G. G. Fuller and L. G. Leal, Rheology 2, 393 (1980).

“Dynamic Light Scattering from Macromolecules: The Separation of Translation from Rotational and Deformable Modes,” J. M. Rallison and L. G. Leal, J. Chem. Phys. 74, 4819 (1981).

“An Experimental Study of Drop Migration in Viscoelastic Fluids in a Large Gap Couette Device,” P. C.-H. Chan and L. G. Leal, Ing. J. Multiphase Flow 7, 83 (1981).

“Flow Birefringence of Concentrated Polymer Solutions in Two-Dimensional Flows,” G. G. Fuller and L. G. Leal, J. Polymer Sci. (Polymer Physics Ed.) 19, 557 (1981).

“Network Models of Concentrated Polymer Solutions Derived from the Yamamoto Network Theory,” G. G. Fuller and L. G. Leal, J. Polymer Sci. (Polymer Physics Ed.) 19, 531 (1981).

“The Effects of Conformation-Dependent Friction and Internal Viscosity on the Dynamics of the Nonlinear Dumbbell Model for a Dilute Polymer Solution,” G. G. Fuller and L. G. Leal, J. Non-Newtonian Fluid Mechanics 8, 271 (1981).

“Conservation and Constitutive Equations for Adsorbed Species Undergoing Surface Diffusion and Convection at a Fluid-Fluid Interface,” H. Brenner and L. G. Leal, J. Colloid and Interface Sci. 88, 136 (1982).

“A Numerical Study of the Motion of a Viscoelastic Fluid Past Rigid Spheres and Spherical Bubbles,” G. Tiefenbruck and L. G. Leal, J. Non-Newtonian Fluid Mechanics 10, 115 (1982).

“Strong Flow Criteria Based on Microstructure Deformation,” W. L. Olbricht, J. M. Rallison and L. G. Leal, J. Non-Newtonian Fluid Mechanics 10, 291 (1982).

“The Creeping Motion of Liquid Drops Through a Circular Tube of Comparable Diameter: The Effect of Density Differences between the Fluids,” W. L. Olbricht and L. G. Leal, J. Fluid Mech. 115, 187 (1982).

“Motion of a Sphere in the Presence of a Deformable Interface. Part I, The Effects of Small Deformations,” C. Berdan and L. G. Leal, J. Colloid Interface Sci. 87, 62 (1982).

“Motion of a Sphere in the Presence of a Deformable Interface. Part 2, Large Deformations for Motion Normal to the Interface,” S. H. Lee and L. G. Leal, J. Colloid Interface Sci. 87, 81 (1982).

“Particle Motion Near a Deformable Fluid Interface,” L. G. Leal and S. H. Lee, Advances in Colloid and Interface Science 17, 61 (1982).

“Bubble Shapes in Steady Axisymmetric Flows at Intermediate Reynolds Number,” G. Ryskin and L. G. Leal, Proceedings of the Second International Colloquium on Bubbles and Drops, NASA-JPL Publication 82-87, 151 (1982).

“Studies of the Effects of Bulk Motion on Macromolecular Conformation in Dilute Polymer Solutions,” L. G. Leal and P. N. Dunlap, Proceedings 28th IUPAC Symposium on Macromolecules (Amherst), 535 (1982).

“An Experimental Study of the Effective Thermal Conductivity of a Sheared Suspension of Rigid Spheres,” Y. C. Chung and L. G. Leal, Int. J. Multiphase Flow 8, 605 (1982).

“The Creeping Motion of Immiscible Drops through a Converging/Diverging Tube,” W. L. Olbricht and L. G. Leal, J. Fluid Mech. 134, 329 (1983).

“Similarity Solutions of Free Shear Flows Using Mean Reynolds Stress Turbulence Models,” P. E. Wood and L. G. Leal, Numerical Heat Transfer 6, 235 (1983).

“The Low Reynolds Number Motion of Spherical Particles Toward a Fluid Interface,” L. G. Leal, Annals of the New York Academy of Sciences 404, 311 (1983).

“Particle Motion in Stokes Flow near a Plane Fluid-Fluid Interface. Part 1. Slender Body in a Quiescent Fluid,” S.-M. Yang and L. G. Leal, J. Fluid Mech. 136, 393 (1983).

“Orthogonal Mapping,” G. Ryskin and L. G. Leal, J. Computational Physics 50, 71 (1983).

“Numerical Solution of Free Boundary Problems in Fluid Mechanics. Part 1. The Numerical Technique,” G. Ryskin and L. G. Leal, J. Fluid Mech. 148, 1 (1984).

“Numerical Solution of Free Boundary Problems in Fluid Mechanics. Part 2. Buoyancy Driven Motion of a Gas Bubble Through a Quiescent Liquid,” G. Ryskin and L. G. Leal, J. Fluid Mech. 148, 19 (1984).

“Numerical Solution of Free Boundary Problems in Fluid Mechanics. Part 3. Bubble Deformation in an Axisymmetric Straining Flow,” G. Ryskin and L. G. Leal, J. Fluid Mech. 148, 37 (1984).

“A Review of Solution Methods for Viscous Flow in the Presence of Deformable Boundaries,” L. G. Leal, in Waves on Fluid Interfaces, Ed. R. E. Meyer, Academic Press, 1983, pp. 83-112.

“The Charged Dumbbell Model for Dilute Polyelectrolyte Solutions in Strong Flows,” P. N. Dunlap and L. G. Leal, Rheol. Acta. 23, 238 (1984).

“A Constitutive Equation for a Concentrated Suspension of Bendable Rods in an Elastic Matrix,” N. Phan-Thien and L. G. Leal, ZAMP 34, 754 (1983).

“A Study of Conformation-Dependent Friction in a Dumbbell Model for Dilute Polymer Solutions,” N. Phan-Thien, O. Manero and L. G. Leal, Rheol. Acta 23, 151 (1984).

“The Stability of Two-Dimensional Linear Flows,” R. Lagnado, N. Phan-Thien and L. G. Leal, Physics of Fluids 27, 1094 (1984) (abbreviated version in Proc. 8th Australasian Fluid Mechanics Conference).

“Particle Motion in Stokes Flow near a Plane Fluid-Fluid Interface. Part 2. Linear Shear and Axisymmetric Straining Flows,” S.-M. Yang and L. G. Leal, J. Fluid Mech. 149, 275 (1984).

“Birefringence Studies of Flow-Induced Conformation Changes in Polymer Solutions,” L. G. Leal, Proc. Int. Congress of Rheology, Vol. 1, 191 (1984).

“The Stability of Two-Dimensional Linear Flows of an Oldroyd-type Fluid,” R. Lagnado, N. Phan-Thien and L. G. Leal, J. Non-Newtonian Fluid Mechanics 18, 25 (1985).

“Studies of Flow-Induced Conformation Changes in Dilute Polymer Solutions,” AIP Conference Proceedings No. 137; Polymer-Flow Interaction Workshop, L. G. Leal (1985) pp. 5-32.

“A Computer-Controlled Four-Roll Mill for Investigations of Particle and Drop Dynamics in Two-Dimensional Linear Shear Flows,” B. J. Bentley and L. G. Leal, J. Fluid Mechanics 167, 219 (1986).

“An Experimental Investigation of Drop Deformation and Breakup in Steady, Two-Dimensional Linear Flows,” B. J. Bentley and L. G. Leal, J. Fluid Mechanics 167, 241 (1986).

“An Experimental Study of Transient Effects in the Breakup of Viscous Drops,” H. A. Stone, B. J. Bentley and L. G. Leal, J. Fluid Mechanics, G. I. Taylor Centennial Issue 173, 131 (1986).

“Low Reynolds Number Flow Past Cylindrical Bodies of Arbitrary Cross Sectional Shape,” S. H. Lee and L. G. Leal, J. Fluid Mechanics 164, 401 (1986).

“A Note on Boundary-Layer Separation from a Smooth Slip Surface,” D. S. Dandy and L. G. Leal, Physics of Fluids 29, 1360 (1986).

“The Creeping Motion of a Spherical Particle Normal to a Deformable Interface,” A. S. Geller, S. H. Lee and L. G. Leal, J. Fluid Mechanics 169, 27 (1986).

“Dilute Polystyrene Solutions in Extensional Flow: Birefringence and Flow Modification,” P. N. Dunlap and L. G. Leal, J. Non-Newtonian Fluid Mechanics 23, 5 (1987).

“An Experimental Study of Dilute Polyelectrolyte Solutions in Strong Flows,” P. N. Dunlap, C. H. Wang and L. G. Leal, J. Polymer Sci., Part B: Polymer Physics 25, 2211 (1987).

“A Note on Distortion Functions for the Strong Constraint Method of Numerically Generating Orthogonal Coordinate Grids,” E. P. Ascoli, D. S. Dandy and L. G. Leal, J. Comp. Phys. 72, 513 (1987).

“Numerical Solution of Axisymmetric, Unsteady Free-Boundary Problems at Finite Reynolds Number. I. Finite Difference Scheme and its Application to the Deformation of a Bubble in a Uniaxial Straining Flow,” I. S. Kang and L. G. Leal, Physics of Fluids 30, 1929 (1987).

“The Influence of Rheological Properties on the Slow Flow Past Spheres,” B. Mena, O. Manero and L. G. Leal, J. Non-Newtonian Fluid Mech. 26, 247 (1987).

“Small Amplitude Perturbations of Shape for a Nearly Spherical Bubble in an Inviscid Straining Flow (Steady Shapes and Oscillatory Motion),” I. S. Kang and L. G. Leal, J. Fluid. Mechanics 187, 231 (1988).

“The Drag Coefficient for a Spherical Bubble in a Uniform Streaming Flow,” I. S. Kang and L. G. Leal, Phys. of Fluids 31, 233 (1988).

“Vorticity Transport and Wake Structure for Bluff Bodies at Finite Reynolds Number,” L. G. Leal, Phys. of Fluids A 1, 124-131 (1989).

“Relaxation and Breakup of an Initially Extended Drop in an Otherwise Quiescent Fluid,” H. A. Stone and L. G. Leal, J. Fluid Mech. 198, 399-427 (1989).

“Particle Motion in Axisymmetric Stagnation Flow Toward an Interface,” J. A. Stoos and L. G. Leal, AIChE Journal 35, 196-212 (1989).

“Numerical Solution of Axisymmetric, Unsteady Free-Boundary Problems at Finite Reynolds Number. II. Deformation of a Bubble in a Biaxial Straining Flow,” I. S. Kang and L. G. Leal, Phys. Fluids A 1 (4), 644-660 (1989).

“A Newton 's Method Scheme for Solving Free-Surface Flow Problems,” D. S. Dandy and L. G. Leal, Int. J. Numerical Methods in Fluids 9 (12), 1469-86 (1989).

“A Theoretical Study of the Motion of a Viscous Drop Toward a Fluid Interface at Low Reynolds Number,” B. K. Chi and L. G. Leal, J. Fluid Mech . 201, 123-146 (1989).

“Motions of a Porous Particle in Stokes Flow near a Plane-Fluid Interface,” S.-M. Yang and L. G. Leal, Physicochemical Hydrodynamics 11, 543-569 (1989).

“The Influence of Initial Deformation on Drop Breakup in Subcritical, Time-Dependent Flows at Low Reynolds Numbers,” H. A. Stone and L. G. Leal, J. Fluid Mech. 206, 223-263 (1989).

“The Low Reynolds Number Hydrodynamic Interaction of a Solid Particle with a Planar Wall,” E. P. Ascoli, D. Dandy and L. G. Leal, Int. J. Num. Methods in Fluids 9, 651-688 (1989).

“Buoyancy Driven Motion of a Deformable Drop Through a Quiescent Liquid at Intermediate Reynolds Numbers,” D. Dandy and L. G. Leal, J. Fluid Mech. 208, 161-192 (1989).

“A Note Concerning Drop Deformation and Breakup in Biaxial Extensional Flows at Low Reynolds Numbers,” H. A. Stone and L. G. Leal, J. Coll. Interface Sci. 133, 340-347 (1989).

“Breakup of Concentric Double-Emulsion Droplets in Linear Flows,” H. A. Stone and L. G. Leal, J. Fluid Mech. 211, 123 (1990) (presented at the Kendall Award Symposium, ACS, Pittsburgh , 1988).

“A Spherical Particle Straddling a Fluid/Gas Interface in an Axisymmetric Straining Flow,” J. A. Stoos and L. G. Leal, J. Fluid Mech. 217, 263-298 (1990).

“Buoyancy-Driven Motion of a Deformable Drop Toward a Planar Wall at Low Reynolds Number,” E. P. Ascoli, D. Dandy and L. G. Leal, J. Fluid Mech. 213, 287-311 (1990).

“Visualization of Three-Dimensional Flow in a Four-Roll Mill,” R. Lagnado and L. G. Leal, Experiments in Fluids 9, 25-32 (1990).

“Bubble Dynamics in Time-Periodic Straining Flows,” I. S. Kang and L. G. Leal, J. Fluid Mech. 218, 41-69 (1990).

“The Effect of Surfactants on Drop Deformation and Breakup,” H. A Stone and L. G. Leal, J. Fluid Mech. 220, 161-186 (1990).

“Thermocapillary Motion of a Deformable Drop Toward a Planar Wall,” E. P. Ascoli and L. G. Leal, J. Coll. Interface Sci., 138, 220-230 (1990).

“Flow Birefringence Studies in Transient Flows of a Two-Roll Mill for the Test-Fluid M1,” E. Geffroy and L. G. Leal, J. Non-Newtonian Fluid Mech. 35, 361-400 (1990).

“Motions of a Fluid Drop Near a Deformable Interface,” S. M. Yang and L. G. Leal, Int. J. Multiphase Flow 16, 597-616 (1990).

“The Onset of Chaotic Oscillations and Rapid Growth of a Spherical Bubble at Sub-critical Conditions in an Incompressible Liquid,” Andrew Szeri and L. G. Leal, Physics of Fluids A 3 (4) 551-555 (1991).

“On the Dynamics of Suspended Microstructure in Unsteady, Spatially Inhomogeneous, Two-Dimensional Fluid Flows,” A. J. Szeri, S. Wiggins and L. G. Leal, J. Fluid Mech. 228, 207-241 (1991).

“A Note on Memory-Integral Contributions to the Force on an Accelerating Spherical Drop at Low Reynolds Number” Seung-Man Yang and L. G. Leal, Physics of Fluids 3 (7) 1822-1824 (1991).

“Challenges and Opportunities in Fluid Mechanics and Transport Phenomena,” L. G. Leal in Advances in Chemical Engineering V. 16, “Perspectives in Chemical Engineering Research and Education” Ed. by Clark Colton , Academic Press, San Diego (1991).

“Deformation and Breakup of Viscoelastic Drops in Planar Extensional Flows,” W. J. Milliken and L. G. Leal, J. Non-Newtonian Fluid Mech 40, 355-379 (1991).

“Orthogonal Grid Generation in a 2-D Domain via the Boundary Integral Technique,” I. S. Kang and L. G. Leal, J. Comp Phys. 102, 78-87 (1992).

“Flow Birefringence Studies of a Concentrated Polystyrene Solution in a Two-Roll Mill. 1. Steady Flow and Start-Up of Steady Flow” E. Geffroy and L. G. Leal, J. Polymer Science, Polymer Physics Ed. 30, 1329-1349 (1992).

“Rigid Particles Suspended in Time-Dependent Flows: Irregular vs. Regular Motion, Disorder vs. Order” A. J. Szeri, W. J. Milliken and L. G. Leal, J. Fluid Mechanics 237, 33-56 (1992).

“A New Computational Method for the Solution of Flow Problems of Microstructured Fluids, Part I. Theory” A. J. Szeri and L. G. Leal, J. Fluid Mechanics 242, 549-576 (1992).

Hydrodynamic Interaction of a Small Fluid Particle and a Spherical Drop in Low Reynolds Number Flow,” J. A. Stoos, S.-M. Yang and L. G. Leal, Int. J. Multiphase Flow 18, 1019-1044 (1992).

“A Note on the Effect of Vorticity on the Deformation and Breakup of Polymer Drops,” W.J. Milliken and L.G. Leal, J. Non-Newtonian Fluid Mech . 42, 231-239 (1992).

Laminar Flow and Convective Transport Processes L. G. Leal, Butterworth-Heinemann, Stoneham, Massachusetts, 740 pages (1992).

“The Effect of Segmental Stretch on Theoretical Predictions of the Doi-Edwards Model,” D. W. Mead, E. A. Herbolzheimer and L. G. Leal, Theor. and Applied Rheology, Ed. by P. Moldenaers and R. Keunings, Elsevier, Amsterdam (1992).

“The Effect of Surfactant on the Transient Motion of Newtonian Drops,” W.J. Milliken, H.A. Stone and L. G. Leal, Physics of Fluids 5(1) 69-79 (1993).

“Nonlinear Effects in the Dynamics of Shape and Volume Oscillations for a Gas Bubble in an External Flow,” S. M. Yang, Z. C. Feng and L. G. Leal, J. Fluid Mechanics 247, 417-454 (1993).

“On Energy Transfer in Resonant Bubble Oscillations,” Z. C. Feng and L. G. Leal, Physics of Fluids 5(4) 826-836 (1993).

“A Study of the Interacting FENE Dumbbell Model for Semi-Dilute Polymer Solutions in Extensional Flows,” R. C.-Y. Ng and L. G. Leal, Rheol. Acta 32, 25-35 (1993).

“Numerical Solutions for the Deformation of a Bubble Rising in Dilute Polymeric Fluids,” D. S. Noh, I. S. Kang and L. G. Leal Physics of Fluids 5(6) 1315-1332 (1993).

“Microstructure Suspended in Three-Dimensional Flows,” A. J. Szeri and L. G. Leal J. Fluid Mech. 250, 143-168 (1993).

“Concentration Effects on Birefringence and Flow Modification of Semi-Dilute Polymer Solutions in Extensional Flows,” R. C.-Y. Ng and L. G. Leal, J. Rheol. 37, 443-468 (1993).

“Finite Element Simulation of the Start-Up Problem for a Viscoelastic Fluid in an Eccentric Rotating Cylinder Geometry using a Third-Order Accurate Upwind Scheme,” P. Singh and L. G. Leal, Theor. and Comp. Fluid Mechanics 5, 107-137 (1993).

“Thin Fluid Film Squeezed with Inertia Between Two Parallel Plane Surfaces” Seung-Man Yang and L. Gary Leal, Transactions of the ASME: J. Tribology 115, 632-639 (1993).

“A New Computational Method for the Solution of Flow Problems of Microstructured Fluids, Part II. Inhomogeneous Shear of a Suspension,” A. J. Szeri and L. G. Leal, J. Fluid Mechanics 262, 171-204 (1994).

“An Experimental Investigation of Concentrated Suspension Flows in a Rectangular Channel,” C. J. Koh, P. A. Hookham and L. G. Leal, J. Fluid Mech. 266, 1-32 (1994).

“Bifurcation and Chaos in Shape and Volume Oscillations of a Periodically Driven Bubble with Two-to-One Internal Resonance,” Z. C. Feng and L. G. Leal, J. Fluid Mech. 266, 209-242 (1994).

“Computational Studies of the FENE Dumbbell Model in a Co-Rotating Two-Roll Mill,” P. Singh and L. G. Leal, J. Rheol. 38 (3) 485-517 (1994).

“The Influence of Surfactant on the Deformation and Breakup of a Viscous Drop: The Effect of Surfactant Solubility” W. J. Milliken and L. G. Leal, J. Colloid Interface Science 166, 275-285 (1994).

“Free Oscillation of a Nonspherical Bubble in a Quiescent Fluid,” N. K. McDougald and L. G. Leal Proceedings of the Twentieth Symposium on Naval Hydrodynamics, Santa Barbara, California, August 21-26 (1994).

“Orientation Dynamics and Stretching of Particles in Unsteady, 3-D Fluid Flows: Unsteady Attractors,” A. J. Szeri and L. G. Leal, Chaos, Solitions and Fractals 4(6), 913-927 (1994).

“Time-Resolved Velocity Gradient and Optical Anisotropy in Linear Flow by Photon Correlation Spectroscopy,” J. J. Wang, D. Yavich and L. Gary Leal, Physics of Fluids 6(11), 3519-3534 (1994).

“Experimental and Theoretical Studies of the Dynamics of Complex Fluids,” L. G. Leal, Proc. Joint NSF/DOE Workshop on Flow of Particulates and Fluids, Philadelphia , pp. 60-68 (1994).

“Nonlinear Dynamics of Drops and Bubbles and Chaotic Phenomena” E. H. Trinh, L. G. Leal, Z. C. Feng and R. G. Holt, Proceedings of the Second Microgravity Fluid Physics Conference, Cleveland, OH , NASA Pub. CP3276 (1994).

“Symmetries of the Amplitude Equations of an Inextensional Beam with Internal Resonance,” Z. C. Feng and L. G. Leal, J. Appl. Mech 62, 235-238 (1995).

“Translational Instability of a Bubble Undergoing Shape Oscillations,” Z. C. Feng and L. G. Leal, Physics of Fluids 7 (6), 1325-1336 (1995).

“Finite Element Simulation of Flow Around a 3pi/2 Corner using the FENE Dumbbell Model,” P. Singh and L. G. Leal, J. Non-Newtonian Fluid Mechanics 58, 279-313(1995).

“The Reptation Model with Segmental Stretch. I) Basic Equations and General Properties,” D. Mead and L. G. Leal, Rheologica Acta 34, 339-359 (1995).

“The Reptation Model with Segmental Stretch. II) Steady Flow Properties,” D. Mead, D. Yavich and L. G. Leal, Rheologica Acta 34, 360-383 (1995).

“A Comparison of Closure Approximations for the Doi Theory of LCPs,” C. V. Chaubal, L. G. Leal and G. H. Fredrickson, J. Rheology 39, 73-104 (1995).

“Numerical Simulation of the Dynamics of an Electrostatically Levitated Drop,” Z. C. Feng and L. G. Leal, Int. J. Multiphase Flow 22, 93-120 (1996).

Research Trends in Fluid Dynamics, Ed. by J. L. Lumley, Andreas Acrivos, L. Gary Leal and Sidney Leibovich, AIP Press, Woodbury, NY, 328 pages (1996).

“Computational Studies of the FENE Dumbbell Model with Conformation-Dependent Friction in a Co-Rotating Two-Roll Mill,” P. Singh and L. G. Leal, J. Non-Newtonian Fluid Mechanics 67, 137-178 (1996).

“Nonlinear Bubble Dynamics,” L. G. Leal and Z. C. Feng, Annual Review of Fluid Mechanics 29, 201-242 (1997).

“A Note on Inertial Effects in the Deformation of Newtonian Drops in a Uniaxial Extensional Flow,” S. Ramaswamy and L. Gary Leal, Int. J. Multiphase Flow 23, 561-574 (1997).

“Computational and Experimental Studies of Polymeric Liquids in Mixed and Extensional Flow,” L. G. Leal, Proceedings of the XIXth International Congress on Theoretical and Applied Mechanics, Kyoto, Japan, pp. 155-170 (1997).

“Smoothed Particle Hydrodynamics Techniques for the Solution of Kinetic Theory Problems. Part 1: Method” C. V. Chaubal, A. Srinivasan, Ö. E ecio lu and L. G. Leal, J. Non-Newtonian Fluid Mechanics 70, 125-154 (1997).

“Numerical Simulations of the Flow of Dilute Polymer Solutions in a Four-Roll Mill,” J. Feng and L. G. Leal, J. Non-Newtonian Fluid Mechanics 70, 187-218 (1997).

“A Closure Approximation for Liquid-Crystalline Polymer Models Based on Parametric Density Estimation” C. V. Chaubal and L. Gary Leal, J. Rheology 42, 177-202 (1998).

“The Response of Entangled Polymer Solutions to Step Changes of Shear Rate: Signatures of Segmental Stretch?” J. P. Oberhauser, L. Gary Leal and D. W. Mead, J. Polym. Sci.: Part B: Polymer Physics 36, 265-280 (1998).

“The Dynamics of Large Bubbles in an Ultrasonic Field,” E. H. Trinh and L. G. Leal, Proceedings of FEDSM '98, 1998 ASME Fluids Engineering Division Summer Meeting, June 1998 (1998).

“The Internal Flows and the Nonlinear Dynamics of Free Drops and Bubbles,” E. H. Trinh, S. S. Sadhal and L. G. Leal, Proceedings of Spacebound 97, Montreal Canada , June 1997 (1998).

“Experimental Studies of an Entangled Polystyrene Solution in Steady State Mixed Type Flows,” D. Yavich, D. W. Mead, J. P. Oberhauser and L. Gary Leal, J. Rheology 42, 671-696 (1998).

Viscous and Elastic Stresses in Extensional Rheometry,” J. Remmelgas, L. G. Leal, N. V. Orr and T. Sridhar, J. Non-Newtonian Fluid Mechanics 76, 111-135 (1998).

“An Experimental Study of the Motion of Concentrated Suspensions in Two-Dimensional Channel Flow. I. Monodisperse Systems,” M. Lyon and L. G. Leal J. Fluid Mechanics 363, 25-56 (1998).

“An Experimental Study of the Motion of Concentrated Suspensions in Two-Dimensional Channel Flow. II. Bidisperse Systems,” M. Lyon and L. G. Leal, J. Fluid Mechanics 363, 57-77 (1998).

“The Dynamics of Ultradilute Polymer Solutions in Transient Flow: Comparison of Dumbbell-Based Theory and Experiment,” G. M. Harrison, J. Remmelgas and L. Gary Leal, J. Rheology 42, 1039-1058 (1998).

“Closure Approximations for the Doi Theory: Which to Use in Simulating Complex Flows of Liquid-Crystalline Polymers?” J. Feng, C. V. Chaubal and L. G. Leal, J. Rheology 42, 1095-1119 (1998).

“Bubble and Drop Nonlinear Dynamics (BDND),” E. H. Trinh, L. G. Leal, D. A. Thomas and R. K. Crouch, Microgravity Science Laboratory (MSL-1) Final Report, NASA/CP-1998-208868, 121-129 (1998).

“Flow-Aligning and Tumbling in Small-Molecule Liquid Crystals: Pure Components and Mixtures,” D. J. Ternet, R. G. Larson and L. G. Leal, Rheologica Acta 38, 183-197 (1999).

“A Differential Constitutive Equation for Entangled Polymer Solutions,” J. Remmelgas, G. Harrison and L. G. Leal, J. Non-Newtonian Fluid Mechanics 80, 115-134 (1999).

“Comparison of Dumbbell-Based Theory and Experiment for a Dilute Polymer Solution in a Corotating Two-Roll Mill,” G. M. Harrison, J. Remmelgas and L. Gary Leal, J. Rheology 43, 197-218 (1999).

“Smoothed Particle Hydrodynamics Techniques for the Solution of Kinetic Theory Problems. Part 2. The Effect of Flow Perturbations on the Simple Shear Behavior of LCPs,” C. V. Chaubal and L. G. Leal, J. Non-Newtonian Fluid Mechanics 82, 25-55 (1999).

“Effects of Flexibility on Liquid Crystalline Polymer Behavior: The Nematic Broken Rod,” C. V. Chaubal and L. G. Leal, J. Poly. Sci: PolymerPhysics 37, 281-300 (1999).

“Experimental Trajectories of Two Drops in Planar Extensional Flow,” D. C. Tretheway, M. Muraoka and L. G. Leal, Physics of Fluids 11, 971-981 (1999).

“Surfactant and Viscoelastic Effects on Drop Deformation in 2-D Extensional Flow,” D. C. Tretheway and L. G. Leal, AIChE Journal 45, 929-937 (1999).

“The Deformation of a Viscoelastic Drop Subjected to Steady Uniaxial Extensional Flow of a Newtonian Fluid,” S. Ramaswamy and L. G. Leal, J. Non-Newtonian Fluid Mechanics 85, 127-163 (1999).

“Numerical Study of the Oscillations of a Non-Spherical Bubble in an Inviscid, Incompressible Liquid. Part I: Free Oscillations from Non-Equilibrium Initial Conditions,” N. K. McDougald and L. G. Leal Int. J . Multiphase Flow 25 (5) 887-919 (1999).

“Numerical Study of the Oscillations of a Non-Spherical Bubble in an Inviscid, Incompressible Liquid. Part II: The Response to an Impulsive Decrease in Pressure,” N. K. McDougald and L. G. Leal, Int. J . Multiphase Flow 25(5) 921-941 (1999).

“Pressure-Driven Channel Flows of a Model Liquid-Crystalline Polymer,” J. Feng and L. G. Leal, Physics of Fluids 11(10) 2821-2835 (1999).

“The Deformation of a Newtonian Drop in the Uniaxial Extensional Flow of a Viscoelastic Fluid” S. Ramaswamy and L. G. Leal, J . Non-Newtonian Fluid Mechanics 88, 31-61 (1999).

“Computational Studies of Nonlinear Elastic Dumbbell Models of Boger Fluids in a Cross-Slot Flow” J. Remmelgas, P. Singh and L. G. Leal J. Non-Newtonian Fluid Mechanics 88, 149-172 (1999).

“Non-Newtonian Fluid Mechanics for Polymeric Liquids - A Status Report” L. G. Leal and J. P. Oberhauser, Korea-Australia Rheology Journal 12, 1-25 (2000) (also published in Perspectives on Rheology for the 21 st Century (Proceedings of the Korea Rheology Conference '99, Seoul Korea, November 9-10, 1999), pp 41-73 (1999)).

“Computational Studies of the FENE-CR Model in a Two-Roll Mill,” J. Remmelgas and L. G. Leal, J. Non-Newtonian Fluid Mechanics 89, 235-253 (1999).

“Numerical Studies of Viscoelastic Flows Using a Model for Entangled Polymer Solutions with a Shear Stress Maximum,” J. Remmelgas and L. Gary Leal, J. Non-Newtonian Fluid Mechanics 90, 187 (2000).

“Transient Extension and Relaxation of a Dilute Polymer Solution in a Four-Roll Mill,” J. Feng and L. G. Leal , J. Non-Newtonian Fluid Mechanics 90, 117 (2000).

“Drop Deformation Breakup and Coalescence with Compatibilizer,” Y. T. Hu, D. J. Pine and L. Gary Leal, Physics of Fluids 12, 484 (2000).

“A Theory for Flowing Nematic Polymers with Orientational Distortion,” J. J. Feng, G. Sgalari and L. G. Leal, The Science of Rheology, J. Rheology 44, 5 (2000).

“Rheo-Optical Studies of Monodisperse and Bimodal Molecular Weight Polymer Subjected to Abrupt Changes of Flow Conditions in a Couette Cell,” J. P. Oberhauser, K. Q. Pham and L. G. Leal, Proc. International Congress on Rheology, Cambridge, UK, 1, 349-351, (2000).

“Extensional Rheometry of Entangled Solutions,” P. K. Bhattacharjee, J. Oberhauser, G. H. McKinley, L. G. Leal and T. Sridhar, Proc. International Congress on Rheology, Cambridge, UK, 1, 396-398, (2000).

“Computational Studies of Viscoelastic Flow for Polydisperse Fluids,” D. H. Kim, J. Remmalgas and L. G. Leal, Proc. International Congress on Rheology, Cambridge, UK, 2, 73-75, (2000).

“Instabilities in Slow Shearing Flows of Nematic Polymers,” J. J. Feng and L. G. Leal, Proc. International Congress on Rheology, Cambridge, UK, 2, 91-93, (2000).

“The Flow Behavior of Liquid Crystalline Polymers Based on a Generalized Doi Model with Distortional Elasticity,” G. Sgalari, L. G. Leal and J. Feng, Proc. International Congress on Rheology, Cambridge, UK, 3, 239-241, (2000).

“The Coalescence of Two Equal-Sized Drops in a Two-Dimensional Linear Flow,” H. Yang, C. Charles Park, Y. Thomas Hu and L. Gary Leal, Physics of Fluids 13(5) 1087-1106, (2001).

“Transient Director Patterns Upon Start-up of Nematic Liquid Crystals (an explanation for stress oscillation damping),” D.J. Ternet, R.G. Larson, and L.G. Leal, Rheologica Acta 40, 307-316, (2001).

“An Experimental Study of Drop Deformation and Breakup in Extensional Flow at High Capillary Numbers,” J. W. Ha and L. G. Leal, Physics of Fluids 13 (6) 1568-1576, (2001).

“Deformation and Relaxation of Newtonian Drops in Planar Extensional Flows of Aa Boger Fluid,” D. C. Tretheway and L. G. Leal, J. Non-Newt. Fluid Mech. 99, 81-108 (2001).

“Structure Formation in Moderately Concentrated Viscoelastic Suspensions in Simple Shear Flow,” M. K. Lyon, D. W. Mead, R. E. Elliot and L. G. Leal, J. Rheol. 45, 881-890 (2001).

“Roll Cells and Disclinations in Sheared Nematic Polymers,” J. J. Feng, J. Tao and L. G. Leal, J. Fluid Mechanics 449, 179-200 (2001).

“Flow-Induced Coalescence of Drops in a Viscous Liquid,” L.G. Leal, Proc. of the Microgravity Transport Processes in Fluid, Thermal, Biological and Materials Sciences II, United Engineering Foundation, Ed. S.S. Sadhal, Banff, Canada, pp.167-173 (2001).

“The Shear Flow Behavior of LCPs Based on a Generalized Doi Model with Distortional Elasticity,” G. Sgalari, L. G. Leal and J. J. Feng, J. Non-Newtonian Fluid Mechanics 102, 361-382 (2002).

“Hydrodynamic Interaction Between Spheres Coated with Deformable Thin Liquid Films”, S.-M. Yang, L. G. Leal, and Y.-S. Kim, J. Colloid and Interface Science 250, 457-465 (2002).

“Extensional Rheometry of Entangled Solutions,” P. K. Bhattacharjee, J. Oberhauser, G. H. McKinley, L. G. Leal and T. Sridhar, Macromolecules 35, 10130-10148 (2002).

“The Effect of Compatibilizer on the Coalescence of Two Drops in Flow,” J. W. Ha, Yosang Yoon and L. G. Leal, Physics of Fluids 15, 849-867 (2003).

“Definitions of Entanglement Spacing and Time Constants in the Tube Model”, R.G. Larson, T. Sridhar, L.G. Leal, G.H. McKinley, A.E. Likhtman and T.C.B. McLeish, J. Rheology 47 (3) 809-818 (2003).

“Study of Molecular Weight Effects on Coalescence: Interface Slip Layer,” C.C. Park , F. Baldessari, L.G. Leal, J. Rheology 47, 911-42 (2003).

“Texture Evolution of Sheared Liquid Crystalline Polymers: Numerical Predictions of Roll-Cells Instability, Director Turbulence and Striped Texture with the Molecular Model,” G. Sgalari, L. G. Leal, and E. Meiburg , J. Rheology 47, 1417-1444 (2003).

“Flow Induced Coalescence of Drops in a Viscous Fluid (Fluid Dynamics Prize Lecture),” L.G. Leal, Physics of Fluids 16, 1833-1851(2004).

“Experimental Analysis of the Coalescence Process via Head-on Collisions in a Time-Dependent Flow,” M. Borrell, Y. Yoon and L.G. Leal, Physics of Fluids 16 (11) 3945-3954 (2004).

“Rheo-Optical Studies of Entangled Polymer Solutions in Reversing Step Strain Rate and Other Transient Shear Flows,” J. P. Oberhauser, K. Q. Pham and L. G. Leal, J. Rheology 48(6) 1229-1249 (2004).