Phillips Physical properties

Chul, M Phillips, R McCarthy, M, Measurement of the Porous Microstructure of Hydrogels by Nuclear Magnetic Resonance, Journal of Colloid and Interface Science 174, 336, 1995. Cohen, Y Ramon, O Kopeknan, IJ Mizrahi, S, Characterization of Inhomogeneous Polyacrylamide Hydrogels, Journal of Polymer Science Part B Polymer Physics 30, 1055, 1992. Cohen Addad, JP, NMR and Statistical Structures of Gels. In The Physical Properties of Polymeric Gels Cohen Addad, JP, ed. Wiley Chichester, UK, 1996 39. 

Norman, R. D., Phillips, R. W., Swartz, M. L. Frankiewicz, T. (1964). The effect of particle size on the physical properties of zinc oxide-eugenol mixtures. Journal of Dental Research, 43, 252-62. 

Thorat SD, Phillips PJ, Semenov V, Gakh A (2003) Physical properties of aliphatic polycarbonates made from CO2 and epoxides. J Appl Polym Sci 89 1163-1176... 

Patki R, Mezghani K and Phillips PJ, "Crystallization Kinetics of Polymers" in Mark JE (Ed), "Physical Properties of Polymers Handbook", Springer, Berlin, 2nd Ed, 2007, Chap. 39. 

Suknark, K., Phillips, R.D., and Chinnan, M.S. (1997). Physical properties of directly expanded extrudates formulated from partially defatted peanut flour and different types of starch. Food Res. Ini. 30, 575-583. 

Higgins J, Hodges NA, Olliff CJ, Phillips AJ. A comparative investigation of glycinebetaine and dimethylsulphoxide as liposome cryoprotectants. J Pharm Pharmacol 1987 39 577-582. MacGregor WS. The chemical and physical properties of DMSO. 

In 1968, new copolymers were introduced containing 1-hexene instead of 1-butene. This change provided improved physical properties of polymers made with Cr/silica catalysts. A new process to produce LLDPE was announced by Phillips in 1969 [22,23]. Polymers with densities as low as 0.925 g mL-1 were produced in a modified PF process with chromium-containing catalysts. Nevertheless, polymers with densities <0.93 g mL 1 were not common among Phillips licensees because of the tendency of low-density polymer to swell, and this swelling limited reactor output. 

LLDPE is generally intermediate in properties between conventional low-density polyethylene (LDPE) made by high-pressure processes and linear, high-density polyethylene (HOPE) of the Ziegler or Phillips type. A qualitative comparison of the more significant physical properties is given in Table II (some quantitative data are given in Table IV),... 

Parvi, U.S. pat, 2,938,931 (1960 to Soci6te d electrochimie, d Alectromecallurgie et des acieries 6Iectriques d Ugine). Review of mfg processes Faith, Keyes Clark s Industrial Chemicals, F. A. Lowenheim, M. K. Moran, Eds. (Wiley -Interscience, New York, 4th ed., 1975) pp 604-611. Physical properties Mumford, Phillips, J. Chem. Soc. 1950, 75. Toxicity data Dybing, Acta Pharmacol. Toxicol. 2, 223... 

R. W. Renfree, T.J. Nosker, S. Rankin, H. Frankel, T. M. Kasternakis and E. M. Phillips, Physical characteristics and properties of profile extrusions produced from post-consumer co-mingled plastic wastes, AN TEC 89, 1809-1812. 

Between 1967 and 1973, workers at Phillips refined the new polymerization process, defined physical properties, constructed and operated a pilot plant, established market demand for such a material and designed and constructed a full-scale commercial plant. In late 1972 the world s first polyphenylene sulfide plant came on stream in the Phillips Petroleum Company facility in Borger, Texas. The original plant had a nameplate capacity of 5 MM pounds per year. Subsequently, it has been enlarged and debottlenecked to its present capacity of 12 MM pounds per year. This material is sold under the tradename Ryton Polyphenylene Sulfide. 

KLEIN - We do indeed use a semi-empirical model for the various interaction potentials. First, we model the ammonia inter molecular potential with an effective pair potential which ignores many body polarization. Models of this type are remarkably successful in explaining the physical properties of polar fluids. Of course, we really should include many body forces, but at this stage we ignore them. The ammonia potential is fitted to the heat of evaporation and the zero-pressure density. The electron-alkali metal (Lithium) potential is represented by the Shaw pseudo potential fitted to the ionization energy. This is the simplest and crudest model possible. We have explored the effect of using (a) Heine-Abarenkov, (b) Ashcroft, and (c) Phillips-Kleinman forms. Our results are not very sensitive to the choice of pseudo potential. (In the case of Cs metal, which I did not discuss, the sensitivity to the potential is crucial). 

K. Mezghani and P. J. Phillips, Crystallization Kinetics of Polymers, in Physical Properties of Polymers Handbook, J. Mark (Ed.), AIP Press, Woodbury, NY 1996. 

RYTON Polypheny lenesulfide Physical, Chemical, Thermal, and Electrical Properties, TSM-266, Phillips Chemical Co., BaiflesviUe, OHa., Api. 1981, p. 2. 

The approach that will be used in this text is different, in that the description of electronic structures is greatly simplified to provide a more vivid understanding of the properties numerical estimates of properties will be obtained with calculations that can be carried through by hand rather than machine. We shall concentrate on the physics of the problem. In this context a scmicmpirical determination of matrix elements is appropriate. The first attempt at this (Harrison, 1973c) followed Phillips (1970) in obtaining the principal matrix element Kj from the measured dielectric constant. A second attempt (Harrison and Ciraci,... 

Cuvelier, G., Peigney-Noiuy, C., and Launay, B. 1990. Viscoelastic properties of physical gels critical behaviour at the gel point, in Gums and Stabilisers for the Food Industry 5, eds. G. O. Phillips, D. J. Wedlock and P. A. Williams, pp. 549-552, IRL Press, Oxford, UK. 

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