Interpenetrating polymer networks based

Lim, Y. H., Kim, D., and Lee, D. S. Drug releasing characteristics of thermo- and pH-sensitive interpenetrating polymer networks based on poly(A-isopropylacry-lamide). J. Appl. Polym. Sci. 1997, 64, 2647-2655. [Pg.173]

VladS, Vlad A, Oprea S (2002) Interpenetrating polymer networks based on polyurethane and polysiloxane. Eur Poly J 38(4) 829—835... [Pg.148]

Xiao H et al. (1990) The synthesis and morphology of semi-interpenetrating polymer networks based on polyurethane-poly(dimethylsiloxane) system. J Poly Sci Part A Poly Chem 28(3) 585-594... [Pg.148]

Mishra, V. Murphy, C.J. Sperling, L.H. Interpenetrating polymer networks based on thermoplastic polyurethanes (TPUs) and cis-1,4 polyisoprene. J. Appl. Polym. Sci. 1994, 53, 1425-1434. [Pg.2539]

Donatelli, A.A. Sperling, L.H. Thomas, D.A. Interpenetrating polymer networks based on SBR/PS. 1. Control of morphology by level of crosslinking and 2. Influence of synthetic detail and morphology on mechanical behavior. Macromolecules 1976, 9 (4), 671, 676. [Pg.2540]

Fatigue Behavior of Interpenetrating Polymer Networks Based on Polyurethanes and Poly(methyl methacrylate)... [Pg.309]

Materials for intervertebral disc replacement — Interpenetrating polymer networks based on crosslinked poly(vinyl alcohol) were prepared by impregnating the PVA matrix with hydrophilic and hydrophobic monomers and subsequently irradiating with gamma rays [22],... [Pg.37]

Nayak, R D.K. Mishra D. Parida K.C. Sahoo M. Nanda S. Lenka P.L. Nayak. Polymers from renewable resources. IX. Interpenetrating polymer networks based on castor oil polyurethane poly(hydroxyethyl methacrylate) Synthesis, chemical, thermal, and mechanical properties. / Appl. Polym. Sci. 1997, 63, 671-679. [Pg.613]

Garcia-Uriostegui, L., Burillo, G., and Bucio, E. 2012. Synthesis and characterization of thermosensitive interpenetrating polymer networks based on N-isopropylacrylamide/N-acryloxysuccinimide, crosslinked with polylysine, grafted onto polypropylene. Radiat Phys Chem. 81 295-300. [Pg.298]

Zhang H, During L, Kovacs G, Yuan W, Niu X, Pei P (2010) Interpenetrating polymer networks based on acrylic elastomers and plasticizers with iminoved actuation temperature range. Polym Int 59 384-390. doi 10.1002/pi.2784... [Pg.127]

Samui, A. B., Dalvi, V. G., Parti, M., Chakraborty, B. C., and Deb, P. C. 2004. Studies on semi-interpenetrating polymer network based on nitrile rubber and poly (methyl methacrylate). Journal of Applied Polymer Science 91(1) 354—360. [Pg.173]

Kosyanchuk, L. E, Babkina, N. V., Yarovaya, N. V, Kozak, N. V, and Lipatov, Y. S., 2008. Phase separation in semi-interpenetrating polymer networks based on crosslinked poly(urethane) and linear p>oly(methyl methacrylate) containing iron, copper, and chromium chelates. Polymer Science Series A 50(4) 434-433. [Pg.174]

Fernandez, A.M., Murphy, C. J., DeCosta, M.T. et al. (1983) Vemonia oil characterization and polymerization and simultaneous interpenetrating polymer networks based on vemonia oil-sebacic acid/polystyrene-DVB compositions. Polymer Science and Technology (Plenum), 17, 273-288. [Pg.134]

C. S. Sanmathi, S. Prasannakumar and B. S. Sherigara, Interpenetrating polymer networks based on polyol modified castor oil polyurethane and poly(2-ethoxyethyl methacrylate) Synthesis, chemical, mechanical, thermal properties, and morphology , JAppl Polym Sci, 2004,94,1029-34. [Pg.178]

S. Zafar, F. Zafar, U. Riaz and S. Ahmad, Synthesis, characterization, and anticorrosive coating properties of waterborne interpenetrating polymer network based on epoxy-acrylic-oleic acid with bntylated melamine formaldehyde , / Appl Polym Sci, 2009,113, 827-38. [Pg.206]

Rosu, D., Rosu, L., Varganici, C.-D. The thermal stability of some semi-interpenetrated polymer networks based on epoxy resin and aromatic polyurethane. J. Anal. Appl. Pyrol. 100, 103-110 (2013)... [Pg.44]

J. Seo, W. Jang, S. Lee, H. Han, The stability of semi-interpenetrating polymer networks based on sulfonated polyimide and poly (ethylene glycol) diacrylate for fuel cell applications, Polym. Degrad. Stab. 93 (1) (2008) 298-304. [Pg.184]

G. P. Belonovskaya, J. D. Chernova, L. A. Korotneva, L. S. Andriarova, L. S. Andriarova, B. A. Dolgoplosk, S. K. Zakharov, Yu. N. Sazanov, K. K. Kalninsh, L. M. Kaljuzhnaya, and M. F. Lebedeva, Interpenetrating Polymer Networks Based on Diisocyanates and Polar Monomers, Eur. Polym. J. 12(11), 817-823 (1976). Rubber, synthetic poly(propylene sulfide)-poly(tolylene diisocyanate) compatible interpenetrating networks. Polyisocyanate network, tensile, strength. [Pg.244]

A. A. Donatelli, L. H. Sperling, and D. A. Thomas, Interpenetrating Polymer Networks Based on SBR/PS. 1. Control of Morphology by Level of Crosslinking, Macromolecules 9(4), 671 (1976). SBR/Polystyrene IPN. Morphology and crosslinking level. [Pg.246]

Yu. S. Lipatov, L. M. Sergeeva, L. V. Karabanova, A. E. Nesterov, and T. D. Ignatova, Thermodynamic and Sorption Properties of Interpenetrating Polymer Networks Based on Polyurethane and a Styrene-Divinylbenzene Copolymer, Vysokomol. Soedin. Ser. A. 18(5), 1025 (1976). Transition layer studies of PU/PS IPNs. IPN heat of mixing. [Pg.253]

L. H. Sperling, T. W. Chiu, and D. A. Thomas, Glass-Transition Behavior of Latex-Interpenetrating Polymer Networks Based on Methacrylic-Acrylic Pairs, J. Appl. Polym. Sci. 17(8), 2443 (1973). Polyacrylate/polymethacrylate latex IPNs. Glass transition and damping behavior. [Pg.257]

L. H. Sperling and H. D. Sarge, III, Joined and Sequential Interpenetrating Polymer Networks Based on Poly(dimethylsiloxane), J. Appl. Polym. Sci. 16(11), 3041 (1972). PDMS/PS and PDMS/PMMA sequential IPNs and ABCPs. [Pg.258]

The volume resistivity, permittivity, and dielectric loss factor of nanostructured interpenetrating polymer networks based on natural rubber/polystyrene have been found to increase as a function of blend composition, reaching a maximum of 10 -10 Hz dielectric loss factor [27]. Measurements of volume resistivity have also been reported on epoxy resin-polyaniline blends resulting in the establishment of a correlation between a shoulder on the 1583 cm band with the degree of volume resistivity [31]. [Pg.133]

A. P. Mathew, Interpenetrating Polymer Network Based on Natural Rubber and Polystyrene, PhD thesis, Mahatma Gandhi University, India, 1999. [Pg.44]

Reddy, T. T., Kano, A., Maruyama, A., Hadano, M., Takahara, A. (2009). Synthesis and characterization of semi-interpenetrating polymer networks based on polymethane and N-isopropylacrylamide for wound dressing. Journal of Biomedical Materials Research Part B Applied Biomaterials, 88, 32-40. [Pg.230]

VERNONIA OIL CHARACTERIZATION AND POLYMERICATION, AND SIMULTANEOUS INTERPENETRATING POLYMER NETWORKS BASED ON VERNONIA OIL-SEBACIC ACID/POLYSTYRENE-DVB COMPOSITIONS... [Pg.273]

John, J. et al. (2010) Main chain and segmental dynamics of semi interpenetrating polymer networks based on polyisoprene and poly(methyl methacrylate). Polymer, 51 (11), 2390-2402. [Pg.704]

INTERPENETRATING POLYMER NETWORKS BASED ON FUNCTIONAL TRIGLYCERIDE OILS AND OTHER NOT YET COMMERCIAL RENEWABLE RESOURCES... [Pg.95]

Fainleib A M, Novikova T I, Shantalii T A and Sergeeva L M (1992) Kinetic of formation semi-interpenetrating polymer networks based on crosslinked polycyanurate and linear polyurethane, Polym. Sci., Ser B 33 60-67. [Pg.143]

Mohapatra DK, Das D, Nayak PL, Lenka S. 1996. Polymers from Renewable Resources. XX. Synthesis, Structure, and Thermal Properties of Semi-Interpenetrating Polymer Networks Based on Cardanol-rmaldehyde-Substituted Aromatic Compounds Copolymerized Resins and Castor Oil Polyurethanes. J Appl Polym Sd 70 837-842. [Pg.290]

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