Journal and Proceedings Publications as of 2001

E.F. Matthys – Some Journal and Proceedings Publications

(later publications being reformatted - to be relisted shortly)

Gasljevic K., G. Aguilar, and E.F. Matthys. 2001. On two distinct types of drag-reducing fluids, diameter scaling, and turbulent profiles. Journal of Non-Newtonian Fluids Mechanics, Vol. 96, No. 3, pp. 405-425.

Gasljevic K., Aguilar G., and E.F. Matthys. 2000. Buoyancy effects on heat transfer and temperature profiles in horizontal pipe flow of drag-reducing fluids. International Journal of Heat and Mass Transfer, vol. 43, No. 23, pp. 4267-4274.

Aguilar G., K. Gasljevic and E.F. Matthys. 1999. Coupling between Heat and Momentum Transfer Mechanisms for Drag-reducing Polymer and Surfactant Solutions. Journal of Heat Transfer, vol. 121, No. 4, pp. 796-802.

Wang SP, GX Wang, and E.F. Matthys. 1999. Deposition of a molten layer of high melting point material : substrate melting and resolidification. Materials Science and Engineering, Vol. A262, pp. 25-32.

Gasljevic K., G. Aguilar, and E.F. Matthys. 1999. An improved diameter scaling for turbulent flow of drag-reducing polymer solutions. J. of Non-Newtonian Fluid Mechanics,. vol. 84, No. 3, pp. 131-148.

Gasljevic K. and E.F. Matthys. 1999. Improved Quantification of the Drag Reduction Phenomenon Through Turbulence Reduction Parameters. J. of Non-Newtonian Fluid Mechanics, vol. 84, No. 3, pp. 123-130.

Hu Y.T., P. Boltenhagen, E.F. Matthys, and D.J. Pine. 1998. Shear-Thickening In Low-Concentration Solutions Of Wormlike Micelles II: Slip, Fracture, And Stability Of The Shear-Induced Phase. Journal of Rheology, vol. 42, No. 5, pp. 1209-1226.

Wang S.P., Wang G.X., and E.F. Matthys. 1998. Substrate Melting and Resolidification after contact with a molten layer of high melting point material. In "Heat Transfer in Materials Processing" Vol. HTD361-4, ASME Pub., pp. 131-136

Gasljevic K, K. Hoyer, and E.F. Matthys. 1998. Field test of a drag-reducing surfactant additive in the hydronic cooling system of a building - phase 2 : heat transfer control. In "Applications of Heat Transfer in Equipment, Systems, and Education" Vol. HTD361-3, ASME Pub., pp. 255-263.

Gasljevic K, K. Hoyer, and E.F. Matthys. 1998. Drag-reducing additives for recirculating hydronic systems: full-scale system engineering analysis and field test. In Proc. of the International Symposium on Seawater Drag Reduction - Newport RI, DARPA Pub., pp. 281-288.

G. Aguilar, K. Gasljevic and E.F. Matthys. 1998. On The Relationship Between Heat Transfer and Drag Reductions for Polymer and Surfactant Solutions. In "Heat Transfer in Flowing Systems" Vol. HTD361-1, ASME Pub., pp. 139-146.

Gasljevic K., K. Hoyer, and E.F. Matthys. 1998. Micellar structure break-up and recovery in turbulent flow of drag-reducing surfactant solutions. In Progress and Trends in Rheology V, Springer Verlag, pp. 527-528.

Wang S.P., G.X. Wang, and E.F. Matthys. 1998. Melting and Resolidification of a substrate in contact with a molten metal: operational maps. International Journal of Heat and Mass Transfer, vol. 41, No. 10, pp. 1177-1188.

Boltenhagen P., Y. Hu, E.F. Matthys, and D.J. Pine. 1997. Observation of bulk phase separation and coexistence in a sheared micellar solution. Physical Review Letters, vol. 79, No. 12, pp. 2359-2362.

Hu Y. and E.F. Matthys. 1997. Evaluation of micellar overlapping parameters for a drag-reducing cationic surfactant system: light scattering and viscometry. Langmuir, vol. 13, No. 19, pp. 4995-5000.

Boltenhagen P., Y. Hu, E.F. Matthys, and D.J. Pine. 1997. Inhomogeneous structure formation and shear-thickening in worm-like micellar solutions. Europhysics Letters, Vol. 38, No. 5, pp.389394.

Wang S.P., G.X. Wang, and E.F. Matthys. 1997. Non-dimensional maps for predicting the melting of a substrate impacted by a molten metal layer. In Manufacturing and Materials Processing, vol. HTD-347, ASME Pub., pp. 57-63.

Wang G.X., V. Prasad, and E.F. Matthys. 1997. An interface-tracking numerical method for rapid planar solidification of binary alloys with application to microsegregation. Materials Science and Engineering, vol. A225, pp. 47-58.

Hu Y. and E.F. Matthys. 1997. Effect of metal ions and compounds on the rheological properties of a drag-reducing cationic surfactant solution exhibiting shear-induced structure formation. J. of Colloid and Interface Science, vol. 186, No. 2, pp. 352-359.

Hu Y. and E.F. Matthys. 1997. Rheological and Rheo-optical Characterization of Shear-induced Structure Formation in a Nonionic Drag-Reducing Surfactant Solution. J. of Rheology vol. 41, No. 1, pp. 151-166.

Wang G. and E.F. Matthys. 1997. Heat Transfer Modelling of the Planar Flow Casting Process. In Manufacturing and Materials processing (W. Aung, ed.), vol. 1, pp. 513-526, Begell House, NY.

Wang S.P., G.X. Wang, and E.F. Matthys. 1997. Substrate Melting and Resolidification in Metal Deposition and Casting Processes. In Proc. of the 1997 NSF Design and Manufacturing Conf., Seattle; NSF Pub.; pp. 357-358.

Wang G.X., V. Prasad, and E.F. Matthys. 1997. Solute distribution during rapid solidification into an undercooled melt. Journal of Crystal growth vol. 174, pp. 35-40.

Gasljevic K. and E.F. Matthys. 1997. Experimental investigation of thermal and hydrodynamic development regions for drag-reducing surfactant solutions. Journal of Heat Transfer vol. 119, No. 1, pp. 80-88.

Wang G.X. and E.F. Matthys. 1996. Modeling of Non-equilibrium Surface Melting and Resolidification for Pure Metals and Binary Alloys. Journal of Heat Transfer, vol. 118, No. 4, pp. 944-951.

Hu Y. and E.F. Matthys. 1996. The effect of salts on the rheological characteristics of a drag-reducing cationic surfactant solution with shear-induced micellar structures. Rheologica Acta, vol. 35, No. 5, pp. 470-480.

Gasljevic K. and E.F. Matthys. 1996. Field test of a drag-reducing surfactant additive in a hydronic cooling system. In Drag Reduction and Turbulence Modification, FED-237; vol. 2, pp. 249-260; ASME, NY.

Hu Y. and E.F. Matthys. 1996. Effect of metal hydroxides on the viscoelasticity of a drag-reducing cationic surfactant solution. In Proc. of the 12th International Congress on Rheology, p. 234, Laval Univ. Pub., Quebec.

Wang, G.X. and E.F. Matthys. 1996. On the Heat Transfer at the Interface Between A Solidifying Metal and a Solid Substrate. In Melt-spinning, Strip Casting, and Slab Casting, pp. 205-236, TMS Pub., Warrendale, PA.

Wang, G.X. and E.F. Matthys. 1996. Study of Interfacial Thermal Contact During Solidification on a Substrate (II). In Proc. of the 1996 NSF Design and Manufacturing Conference, pp. 449-450, SME Pub., Dearborn MI.

Wang G.X. and E.F. Matthys. 1996. Experimental investigation of interfacial thermal conductance for molten metal solidification on a substrate. Journal of Heat Transfer, Vol. 118, No. 1, pp. 157-163.

Gasljevic K. and E.F. Matthys. 1995. On the Diameter Effect for Turbulent Flow of Drag-Reducing Surfactant Solutions. In Development and Applications of Non-Newtonian Flows III, Vol. FED-231, pp. 237-243, ASME Pub, Washington D.C.

Wang G.X. and E.F. Matthys. 1995. Modeling of Surface Melting and Resolidification for Pure Metals and Binary Alloys : Effect of Non-equilibrium Kinetics. In Transport phenomena in materials processing; vol. HTD-317-2, ASME Pub.; pp. 349-359.

Hu Y. and E.F. Matthys. 1995. Characterization of micellar structure dynamics for a drag-reducing surfactant solution under shear: Normal stress studies and flow geometry effects. Rheologica Acta, Vol. 34, pp. 450-460.

Wang G.X. and E.F. Matthys. 1995. Experimental investigation of interfacial heat transfer for molten metal solidification on a substrate. In Transport phenomena in Manufacturing and Materials Processing, Vol. HTD-306, pp. 171-179, ASME Pub.

Liu W., G.X. Wang, and E.F. Matthys. 1995. Thermal analysis and measurements for a molten metal drop impacting on a substrate: cooling, solidification, and heat transfer coefficient. International Journal of Heat and Mass Transfer. vol. 38, No. 8, pp. 1387-1395.

Matthys E.F.. 1995. Heat Transfer to Non-Newtonian Fluids. In The Engineering Handbook, pp. 563-569, CRC Press, Boca Raton, FL.

Wang, G.X. and E.F. Matthys. 1995. Study of Interfacial Thermal Contact During Solidification on a Substrate. In Proc. of the 1995 NSF Design and Manufacturing Conference, pp. 451-452, SME Pub., Dearborn MI.

Gasljevic K. and E.F. Matthys. 1994. Hydrodynamic and Thermal Field Development in the Pipe Entry Region for turbulent flow of Drag-Reducing Surfactant Solutions. In Development in Non-Newtonian Flows II, Vol. FED-206, pp 51-61, ASME Pub, Washington D.C.

Liu W., Wang G.X. and E.F. Matthys. 1994. Spallation of a Substrate by Thermal Shock and Thermal Expansion Differential after Molten Metal Droplet Deposition. In Thermal Processing of Materials (ed: V. Prasad et al.), Vol. HTD-289, pp. 21-29, ASME Pub, Washington D.C.

Wang, G.X. and E.F. Matthys. 1994. Interfacial Thermal Contact during Rapid Solidification on a Substrate. In Heat Transfer 1994 (ed: G. Hewitt), IChemE Pub., Rugby UK, Vol. 4, pp. 169-174 (1994).

Gasljevic K., X. Nan, and E.F. Matthys. 1993. Effect of drag-reducing surfactant additives on heat exchangers. In Development in Non-Newtonian Flows, (eds: Siginer, Van Arsdale, Altan, Alexandrou), vol. AMD-175, pp. 101-108, ASME Pub., New York.

Wang G. and E.F. Matthys. 1993. Modeling of rapid planar solidification of a binary alloy. In Heat and Mass Transfer in Materials Processing and Manufacturing (eds: D. Zumbrunnen et al.) Vol. HTD-261, pp. 35-44, ASME Pub, NY.

Gasljevic K. and E.F. Matthys. 1993. On saving pumping power in hydronic thermal distribution systems through the use of drag-reducing additives. Energy and Buildings, vol. 20, pp. 45-56.

Gasljevic K. and E.F. Matthys. 1992. Effect of drag-reducing surfactant solutions on centrifugal pumps performance. In Recent Advances in Non-Newtonian flows (ed: D. Siginer), pp. 49-56, Vol. FED-141, ASME, New York.

Gasljevic K., B. Jaroux, and E.F. Matthys. 1992. On drag-reducing surfactant solutions and pumps. In Theoretical and Applied Rheology, vol. 1, pp. 504. Elsevier Sci. Pub., Amsterdam.

Liu W., G. Wang, and E.F. Matthys. 1992. Determination of the thermal contact coefficient for a molten metal droplet impinging on a substrate. In Transport Phenomena in Materials Processing and Manufacturing, vol. HTD-196, pp. 111-118, ASME, New York.

Wang G. and E.F. Matthys. 1992. Two-dimensional boundary-layer modeling of Planar Flow Melt-Spinning with Undercooling. In Melt-Spinning and Strip Casting, pp. 263-282, Warrendale, PA: TMS Pub.

Matthys E.F. 1992. Heat transfer and fluid mechanics in materials processing. In Proceedings of the 1992 NSF Design and Manufacturing System Conference, Atlanta, January 8-10; Pub: Society of Manufacturing Engineers, Dearborn; pp. 135-138.

G. Trapaga, E.F. Matthys, J. Valencia, and J. Szekely. 1992. Fluid Flow, Heat Transfer, and Solidification of Molten Metal Droplets Impinging on Substrates: Comparison of Numerical and Experimental Results. Metallurgical Transactions, vol. 23B, No. 6, pp. 701-718.

Wang G. and E.F. Matthys. 1992. An improved boundary-layer model for the Planar Flow Melt-spinning process. Advanced Sensing, Modelling, and Control of Materials Processing; pp. 231-252. Warrendale, PA: TMS Pub.

Wilde P. and E.F. Matthys. 1992. Experimental Investigation of the Planar Flow Casting Process: Development and Free Surface Characteristics of the Solidification Puddle. Materials Science and Engineering, vol. 150, No. 2, pp. 237-247.

Wang G. and E.F. Matthys. 1992. Numerical modelling of phase change and heat transfer during rapid solidification processes: use of control volume integrals with element subdivision. International Journal of Heat and Mass Transfer, 35, No. 1, pp. 141-153.

Wang G. and E.F. Matthys. 1992. Modelling of splat cooling: effect of heat transfer and undercooling on solidification characteristics. "Advanced Sensing, Modelling, and Control of Materials Processing"; pp. 59-80. Warrendale, PA: TMS Pub.

K. Gasljevic and E.F. Matthys. 1991. A feasibility study of the use of drag-reducing additives to reduce pumping power in hydronic thermal distribution systems. In "Industrial Applications of Fluid Mechanics"; T. Morrow, L. Marshall, and S. Sherif, eds; vol. FED-132, pp. 57-65; American Society of Mechanical Engineers, New York.

Wang G. and E.F. Matthys. 1991. Heat Transfer Modelling of Rapid Solidification on a Substrate : A Parametric Investigation for Large Undercooling. International Journal of Rapid Solidification, vol. 6, No. 3-4, pp. 297-324.

Wang G. and E.F. Matthys. 1991. Modelling of heat transfer and solidification during splat cooling: effect of the splat thickness and splat / substrate thermal contact. International Journal of Rapid Solidification, vol. 6, No. 2, pp. 141-174.

Wang G. and E.F. Matthys. 1991. Modelling of Rapid Solidification by Melt-spinning: Effect of Heat Transfer in the Cooling Substrate. Materials Science and Engineering, vol. A136, pp. 85-97.

Matthys E.F.. 1991. Heat Transfer, Drag Reduction, and Fluid Characterization for Turbulent Flow of Polymer Solutions : Recent Results and Research Needs. Journal of Non-Newtonian Fluid Mechanics, vol. 38, No. 2-3, pp. 313-342.

Gong Z., P. Wilde, and E.F. Matthys. 1991. Numerical Modelling of the Planar Flow Melt-Spinning Process, and Experimental Investigation of the solidification puddle dynamics. International Journal of Rapid Solidification, vol. 6, No. 1, pp. 1-28.

Gong Z., P. Wilde, and E.F. Matthys. 1990. Planar Flow Casting : Fluid Flow, Heat Transfer, and Solidification Puddle Dynamics. In Intelligent Processing of Materials, (Eds: H. Wadley and W.E. Eckhart), pp. 149-161. Warrendale, PA: TMS Pub.

Matthys E.F. 1989. Some recent developments in convective heat transfer to drag-reducing fluids. In Drag Reduction In Fluid Flows: techniques for fluid control , (Eds: R.H.J. Sellin and R.T. Moses); pp. 129-139. Chichester, England : Ellis Horwood Pub.

Matthys E.F. and R.H. Sabersky. 1988. Heat transfer and friction coefficients for tomato puree. International Journal of Heat and Mass Transfer 31 (9): 1913-1921.

Matthys E.F. 1988. Measurement of velocity for polymeric fluids by a photochromic flow visualization technique: the tubeless siphon. Journal of Rheology 32 (8): 773-788.

Matthys E.F. and M. Khatami. 1988. Local measurement of velocity and deformation rates in extensional flows of polymer solution: the aspirated jet. In Proceedings of the Xth International Congress on Rheology, (Ed: P. Uhlherr); vol. 2, pp. 112-114. Sydney, Australia: ASR Pub.

Roethig T.R. and E.F. Matthys. 1988. Eddy diffusivities for non-isothermal tube flow of drag-reducing polymer solutions. In Proceedings of the Xth International Congress on Rheology, vol. 2, pp. 227-229. Ed: P. Uhlherr. Sydney, Australia: ASR.

Matthys E.F., H. Ahn, and R.H. Sabersky. 1987. Friction and heat transfer measurements for clay suspensions with polymer additives. Journal of Fluids Engineering 109 (3): 307-312.

Matthys E.F. and R.H. Sabersky. 1987. Rheology, Friction, and Heat Transfer study of a discontinuously shear-thickening antimisting polymer solution. J. of Non-newtonian Fluid Mechanics, 25: 177-196.

Matthys E.F., H. Ahn, and R.H. Sabersky. 1986. Experimental heat transfer and friction results for clay suspensions and their combination with polymers. In International Symposium on Slurry Flows 1986, Vol. FED-38, pp. 203-209. New York: American Society of Mechanical Engineers.

Sarohia V., P. Parikh, A. Yavrouian, and E.F. Matthys. 1986. Research on antimisting fuel for suppression of postcrash aircraft fires. American Institute of Aeronautics and Astronautics Technical Paper No. AIAA 860573, New York.

Matthys E.F. 1985. Influence of photodegradation and aging on the viscosity of antimisting polymer solutions. Journal of NonNewtonian Fluid Mechanics, 18: 8185.

Matthys E.F. 1984. "A viscometric study of the gelation phenomenon for polymer solutions in kerosene". In Advances in Rheology vol. 2, pp. 117125, UNAM Pub.

Matthys E.F. and R.H. Sabersky. 1982. A method of predicting the diameter effect for heat transfer and friction of drag-reducing fluids. International Journal of Heat and Mass Transfer, 25 (9): 13431351.