Abstract
The key physicochemical problems of the formation and properties of interpenetrating polymer networks (IPNs) are considered. The main feature that determines the structure and properties of IPNs consists of the thermodynamic incompatibility of two constituents that arises in the course of the chemical reactions leading to the formation of IPNs. The peculiarities of the chemical reactions of IPN formation are the dependence of the reaction rate of the formation of each network on the presence of another. The chemical reactions are accompanied by the processes of phase separation. The conditions of the phase separation (its rate and degree) are dependent on the chemical kinetics. The heterogeneous structure (two evolved phases and the interfacial region between them) and the thermophysical, viscoelastic, and other physical properties of phase-separated IPNs are governed by the degree of segregation of the system into two phases. The formation of IPNs proceeds under conditions of superposition of the chemical kinetics of two reactions and the physical kinetics of phase separation, both proceeding in nonequilibrium conditions. The result is incomplete phase separation and a lack of interpenetration over the entire volume of the system.
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References
Sperling LH (1981) Interpenetrating polymer networks and related materials. Plenum, New York
Millar JR (1960) J Chem Soc 3:1311
Sperling LH (1994) IPN around the world, II: recent advances. In: Klempner D, Frisch K (eds) Advances in interpenetrating polymer networks, vol 4. Technomic, Lancaster, PA, p 1
Sperling LH, Mischra V (1996) Polym Adv Technol 76:197
Frisch HL, Wasserman E (1961) J Am Chem Soc 83:3789
Frisch HL, Klempner D (1970) Adv Macromol Chem 2:149
Frisch HL, Klempner D, Frisch KC (1969) J Polym Sci B 8:775
Klempner D, Frisch HL, Frisch KS (1970) J Polym Sci A 7:921
Klempner D, Frisch KC (1974) Advances in urethane science and technology. Technomic, Lancaster, PA, p 14
Sperling LH, Friedman DW (1969) J Polym Sci A2 7:427
Lipatov YS, Lipatova TE, Kosyanchuk LF (1989) Adv Polym Sci 88:50
Vilgis TA, Frisch HL (1989) Polym Bull 21:655
Lipatov YS, Nizel'sky YN (1993) New J Chem 17:1144
Frisch HL (1993) New J Chem 17:697
Sperling LH (1986) Recent developments in interpenetrating polymer networks and related materials. In: Paul DR, Sperling LH (eds) Multicomponent polymer materials. Adv Chem Ser 211, American Chemical Society, Washington, DC, p 21
Sperling LH (1994) In: Klempner D, Sperling LH, Utracki LA (eds) Interpenetrating polymer networks. Adv Chem Ser 239, American Chemical Society, Washington, DC, p 3
Lipatova TE, Shilov VV, Bazilevskaya NP, Lipatov YS (1977) Br Polym J 9:159
Derrough SN, Rout C, Widmaier JM (1993) J Appl Polym Sci 48:1183
Bauer BJ, Briber RM, Dickens B (1994) In: Klempner D, Sperling LH, Utracki LA (eds) Interpenetrating polymer networks. Adv Chem Ser 239, American Chemical Society, Washington, DC, p 179
Gul V (1978) Structure and strength of polymers. Khimiya, Moscow (in Russian)
Flory P (1944) Chem Rev 35:51
Lipatov YS, Kercha YY, Sergeeva LM (1970) Structure and properties of polyurethanes. Naukova Dumka, Kiev (in Russian)
Lipatova TE (1974) Catalytic polymerization and formation of polymer networks. Naukova Dumka, Kiev (in Russian)
Irzhak VI, Rosenberg BA, Enikolopyan NS (1979) Crosslinked polymers. Nauka, Moscow (in Russian)
Irzhak VI, Korolev GV, Solov'ev ME (1997) Usp Khim 66:179
Korolev GV, Mogilevich MM, Golikov IV (1995) Network polyacrylates: microheterogeneous structures, physical networks and deformation and ultimate properties. Khimiya, Moscow
Dušek K (1965) J Polym Sci B 3:209
Dušek K (1967) J Polym Sci C 16:1289
Scidl J, Malinsky J, Dušek K, Heltz W (1967) Adv Polym Sci 5:113
Dušek K (1970) Polymer Prepr 11:536
Dušek K, Prins W (1969) Adv Polym Sci 6:1
Bobalek E, Moore E, Levy S, Lee C (1964) J Appl Polym Sci 8:625
Lipatova TE (1975) Pure Appl Chem 43:27
Lipatova TE, Ivaschenko VK (1969) Vysokomol Soedin 11:2217 (in Russian)
Nesterov AE, Lipatova TE, Ivaschenko VK, Lipatov YS (1970) Vysokomol Soedin B 12:150
Lipatova TE, Zubko SA (1970) Vysokomol Soedin A 12:1555
Berlin AA, Kefeli TY, Korolev GV (1967) Polyesteracrylates. Khimiya, Moscow
Mark H, Tobolsky A (1950) Physical chemistry of high polymeric systems. Interscience, New York
Graessley WW (1982) Adv Polym Sci 47:67
Glaessley WW (1974) Adv Polym Sci 16:1
Mark JE, Eisenberg A, Glaessley WW, Mandelkern L (1984) Physical properties of polymers. ACS, Washington, DC
Porter RS, Jonson JF (1966) Chem Rev 66:1
Chee KK (1987) J Appl Polym Sci 33:1067
Hoffman M (1967) Rheol Acta 6:377
Tonelli AE (1970) J Polym Sci Polym Chem Ed 8:656
Frank-Kamenetsky MD, Vologodsky AV (1981) Usp fiziki 139:641
De Gennes PG (1979) Scaling concept in polymer physics. Cornell University Press, Ithaca
Kluppel M (1991) In: Physics of polymer networks. The 29th Europhysics Conference. Eur Phys Soc, Alexisbad, p 85
Lipatov YS (1985) Pure Appl Chem 57:1691
Park IH, Lee JH, Kim SC (1983) Polym Bull 10:126
Lipatov YS (1990) J Macromol Sci Rev Chem Phys C 30:209
Nesterov AE, Lipatov YS (1997) Thermodynamics of polymer blends. ChemTec, Toronto
Lipatov YS, Grigoryeva OP, Kovernik G, Shilov VV, Sergeeva LM (1985) Makromol Chem 186:1401
Lipatov YS, Nesterov AE, Kuzmina GP, Ignatova TD (1993) Polym Network Blend 3:89
Olabisi O, Robeson L, Shaw M (1979) Polymer–polymer miscibility. Academic, New York
Sophiea D, Klempner D, Sinjarevic V, Suthar B, Frisch KC (1994) In: Klempner D, Sperling LH, Utracki LA (eds) Interpenetrating polymer networks. Adv Chem Ser 239. American Chemical Society, Washington, DC, p 40
An JH, Sperling LH (1988) In: Dickie RA, Labana SS, Bauer RS (eds) Cross-linked polymers: chemistry, properties and application. ACS Symp Ser 367. American Chemical Society, Washington, DC
Sperling LH, Heck CS, An JH (1989) In: Utracki LA, Weiss BA (eds) Multiphase polymers: blends and ionomers. ACS Symp Ser 395. American Chemical Society, Washington, DC
Mishra V, Du Prez FE, Goethals E, Sperling LH (1995) J Appl Polym Sci 58:331
Baidak AA, Liegeois JM, Sperling LH (1997) J Appl Polym Sci Polym Phys 35:1973
Du Prez FE, Tan P, Goethals E (1996) Polym Adv Technol 7:257
Bauer BJ, Briber RM, Han CC (1989) Macromolecules 22:940
Li BY, Bi XP, Zhang DH, Wang FS (1989) Forced compatibility and mutual entaglements in poly(vinyl acetate)/poly(methyl acrylate) IPNs. In: Klempner D, Frisch K (eds) Advances in interpenetrating polymer networks, vol 1. Technomic, Lancaster, PA, p 203
Lipatov YS, Nesterov AE, Sergeeva LM (1974) Dokl Akad Nauk SSSR 220:637
Lipatov YS, Sergeeva LM, Karabanova LV, Nesterov AE, Ignatova TD (1976) Vysokomol Soedin A 18:1025 (in Russian)
Nesterov AE, Lipatov YS (1976) Inverse gas chromatography in polymer thermodynamics. Naukova Dumka, Kiev (in Russian)
Lipatov YS, Karabanova LV, Gorbach LA, Lutsyk ED, Sergeeva LM (1992) Polym Int 28:99
Tager A (1977) Vysokomol Soedin A 19:1654 (in Russian)
Lipatov YS, Karabanova LV, Khramova TS, Sergeeva LM (1978) Vysokomol Soedin A 20:46
Karabanova LV, Mikhalovsky SV, Sergeeva LM, Meikle ST, Helias M, Lloyt W (2004) Polym Eng Sci 44:940
Cahn J, Hilliard J (1958) J Chem Phys 28:258
Donatelli AA, Sperling L (1976) Macromolecules 9:672
Yeo JK, Sperling LH, Thomas DA (1982) Polym Eng Sci 22:190
Donatelli AA, Sperling LH, Thomas DA (1977) J Appl Polym Sci 21:1189
Yeo JK, Sperling LH, Thomas DA (1983) Polymer 24:307
Williams JA, Borrajo J, Adabbo HE, Rojas AJ (1984) Adv Chem Ser 1285:195
Vaquez A, Rojas A, Adabbo HE, Borrajo J, William PJ (1987) Polymer 28:1156
Rosenberg B (1991) Macromol Chem Macromol Symp 41:65
Manevich E, Sigalov GM, Rosenberg B (2001) In: Rosenberg B, Sigalov GM, Taylor L (eds) Heterogeneous network polymers. Francis Books, London
Rosenberg B (2001) Russ I Mendeleev D Chem Soc 45:23
Rosenberg B, Sigalov G (1996) Polym Adv Technol 7:356
Lipatov YS, Shilov VV (1984) Usp Khim 53:1197
Lipatov YS, Grigoryeva OP, Shilov VV, Sergeeva LM (1984) Dokl Akad Nauk SSSR 278:409
Lipatov YS, Rosovitsky VF, Maslak YV, Zakharenko SA (1984) Dokl Akad Nauk SSSR 278:1408
Lipatov YS, Grigoryeva OP, Sergeeva LM, Shilov VV (1986) Vysokomol Soedin A 28:385
Lipatov YS (1983) Mech Compos Mater 5:771
Lipatov YS, Shilov VV, Gomza YP, Kovernik GP (1984) Makromol Chem 185:947
Lipatov YS (1989) Microphase separation in interpenetrating polymer networks and their viscoelasticity. In: Klempner D, Frisch K (eds) Advances in interpenetrating polymer networks, vol 1. Technomic, Lancaster, PA, p 261
Park JW, Kim SS (1996) Polym Adv Technol 7:209
He X, Widmaier JM, Meyer G (1993) Polym Int 32:295
Shilov VV, Gomza YP, Kovernik GP (1983) Dokl Akad Nauk SSSR 271:913
Bauer BJ, Briber RM (1994) The effect of crosslink density on phase separation in interpenetrating polymer networks. In: Klempner D, Frisch K (eds) Advances in interpenetrating polymer networks, vol 4. Technomic, Lancaster, PA, p 45
Binder K, Frisch HL (1984) J Chem Phys 81:2126
Lipatov YS, Khramova TS, Sergeeva LM, Karabanova LV (1977) J Polym Sci Polym Chem 15:427
Mikhal'chuk VM, Lipatov YS, Stroganoff VF (1996) Polym Network Blend 6:133
Fox TG (1956) Bull Am Phys Soc 1:123
Hsieh KH, Liao DC, Chen CY, Chiu WY (1996) Polym Adv Technol 7:265
Hourston DJ, Song M, Hammiche A, Pollock HM, Reading M (1997) Polymer 38:1
Spaans RD, Muhammad M, Williams MC (1999) J Polym Sci Polym Phys 37:267
Pang YX, Jia DM, Hu HJ, Hourston DJ, Song M (2000) Polymer 41:357
Fried JR (1978) PhD thesis, University of Massachusetts
Song M, Zhang J, Li Y, Zhang D, Tang X (1989) Kinetic effects in the formation of castor oil polyurethane/epoxide–episulfide resin interpenetrating polymer networks. In: Klempner D, Frisch K (eds) Advances in interpenetrating polymer networks, vol 1. Technomic, Lancaster, PA, p 21
Lipatov YS (1994) In: Klempner D, Sperling LH, Utracki LA (eds) Interpenetrating polymer networks. Adv Chem Ser 239. American Chemical Society, Washington, DC, p 125
Helfand E (1982) In: Polymer compatibility and incompatibility. Harwood Academic, London, p 133
Flory P, Rehner J (1943) J Chem Phys 11:512
Treloar LRG (1958) The physics of rubber elasticity, 2nd ed. Oxford University Press, London
Shibayama K, Suzuki Y (1967) Rubber Chem Technol 40:476
Klempner D, Frisch HL, Frisch KC (1971) J Elastoplastics 3:2
Klempner D, Frisch HL (1970) J Polym Sci A2 8:921
Frisch HL, Frisch KC (1969) J Polym Sci Polym Lett 7:775
Erman B, Mark JE (1997) Structure and properties of rubberlike networks. Oxford University Press, Oxford
Lipatov YS, Sergeeva LM (1979) Interpenetrating polymer networks. Naukova Dumka, Kiev (in Russian)
Tadao K, Shiro N, Hirochi A (1990) Sequential interpenetrating polymer networks: synthesis, structure, and properties. In: Klempner D, Frisch K (eds) Advances in interpenetrating polymer networks, vol 2. Technomic, Lancaster, PA, p 47
Thiele J, Cohen RE (1979) Polym Eng Sci 19:284
Siegfried DC, Thomas DA, Sperling LH (1979) Macromolecules 12:586
Liu W, Han X, Liu J, Zhou H (1994) In: Klempner D, Sperling L, Utracki L (eds) Interpenetrating polymer networks. ACS, Washington, DC, p 571
Lipatov YS, Sergeeva LM, Mozzhukhina LV, Apukhtina NP (1974) Vysokomol Soedin A 16:2290
Lipatov YS, Alekseeva TT (1996) Polym Sci A 38:940
Lipatov YS, Alekseeva TT (1996) Polym Adv Technol 7:234
Lipatov YS, Feinerman AE (1984) J Colloid Interface Sci 98:126
Lipatov YS, Vilensky VA (1975) Vysokomol Soedin A 17:2069
Fujita HF, Kishimoto A (1960) Trans Faraday Soc 56:424
Lipatov YS, Karabanova LV, Sergeeva LM, Gorichko EY (1982) Vysokomol Soedin A 24:110
Lipatov YS, Karabanova LV, Sergeeva LM (1984) Vysokomol Soedin A 26:2265
Hill TL (1992) Statistical mechanics. McGraw-Hill, London
Feinerman AE, Lipatov YS (1995) Polym Network Blend 5:123
Feinerman AE, Lipatov YS (2000) J Polym Sci 38:899
Kumar H, Kumaraswamy GN, Ravikumar HB, Ranganathaiah C (2005) Polym Int 54:1401
Bonart R, Mueller E (1974) J Macromol Sci B10:177
Lipatov YS, Shilov VV, Gomza YP, Kruglyak NE (1982) X-ray methods of studying polymeric systems. Naukova Dumka, Kiev (in Russian)
Porod G (1952) Koll Z 125:51
Alig I, Junker M, Schulz M, Frisch HL (1996) Polym Sci A 38:43
Leibler L (1980) Macromolecules 13:1602
Shilov VV, Lipatov YS (1986) In: Physical chemistry of multicomponent polymeric systems, vol 2. Naukova Dumka, Kiev, p 25
Lipatova TE, Kuzmenko LS, Shilov VV (1978) Vysokomol Soedin A 20:2013
Lipatov YS, Shilov VV, Bogdanovich VV (1987) J Polym Sci Polym Phys 25:43
Lipatov YS, Shilov VV, Gomza YP (1983) Angew Makromol Chem 119:173
Shilov VV, Lipatov YS, Karabanova LV, Sergeeva LM (1979) J Polym Sci Chem Ed 17:3083
Lipatov YS, Nesterov AE, Sergeeva LM (1975) Dokl Akad Nauk SSSR 220:637
Lipatov YS, Sergeeva LM, Karabanova LV (1976) Vysokomol Soedin A 18:1035
Lipatov YS, Babich VF, Karabanova LV (1976) Rep Acad Sci Ukrainian SSR B1:39
Shilov VV, Karabanova LV, David L, Boiteax G, Seytre G, Gomza YP, Sergeeva LM (2005) Polymer J 27:255
Lipatova TE, Shapoval GS, Shevchuk ES, Basilevskaya NP (1971) J Macromol Sci Chem A 5:345
Bershtein VA, Yakasher PW, Karabanova LV, Sergeeva LM, Pissis P (1999) J Polym Sci Polym Phys 37:429
Lipatov YS, Sergeeva LM (1986) Usp Khim 55:2086
Lipatov YS, Shilov VV, Bogdanovich VA, Karabanova LV, Sergeeva LM (1982) Rep Acad Sci Ukrainian SSR B4:32
Lipatov YS, Alekseeva TT, Shilov VV (1991) Polym Network Blend 1:129
Song M, Hourston DG, Schater FU (2001) J Appl Polym Sci 79:1958
Sperling LH (1984) Polym Eng Sci 24:2
McGarey B (1989) A small-angle neutron scattering study of polydimethylsiloxane/polydeuterostyrene sequential IPNs. In: Klempner D, Frisch K (eds) Advances in interpenetrating polymer networks, vol 1. Technomic, Lancaster, PA, p 69
Richards RW (1990) Macromol Chem Macromol Symp 40:209
Schmatz W, Springer T, Shelten J, Ibel K (1974) J Appl Polym Sci 7:96
Kostorz G (1979) Treatise on material science and technology. Academics, New York
Richards RW (1985) Adv Polym Sci 71:1
Debye P, Bueche AM (1949) J Appl Phys 20:518
Hosemann R (1950) Kolloid Z 117:13
Debuy P, Anderson HR, Brumberger H (1957) J Appl Phys 28:679
Sperling LH, Klein A, Fernandez AM, Linne MA (1983) Polymer Prepr 24:386
Fernandez AM, Wignall GD, Sperling LH (1986) In: Paul DR, Sperling LH (eds) Multicomponent polymer materials. Adv Chem Ser 211. American Chemical Society, Washington, DC, p 153
Lebedev EV, Lipatov YS, Bezruk LI (1975) New methods of polymer investigations. Naukova Dumka, Kiev
Kim SC, Klempner D, Frisch KC, Radigan W, Frisch HL (1976) Macromolecules 9:258
Kim SC, Klempner D, Frisch KC (1975) J Polym Sci 15:340
Touhsaent RE, Thomas DA, Spering LH (1976) Adv Chem 154:206
Sperling LH (1977) Macromol Rev 12:141
Touhsaent RE, Thomas DA, Sperling LH (1974) J Polym Sci C 46:175
Sperling LH (1977) Interpenetrating polymer networks and related materials, suppl 1. In: Encyclopedia of polymer science and technology. Wiley, New York, p 288
Jordhamo GM, Manson JA, Sperling LH (1986) Polym Eng Sci 26:517
Sperling LH, Widmaier JM (1983) Polym Eng Sci 23:694
Widmaier JM, Sperling LH (1982) J Appl Polym Sci 27:3513
Widmaier JM, Sperling LH (1982) Macromolecules 15:625
Widmaier JM, Yeo JK, Sperling LH (1982) Colloid Polym Sci 260:678
Jia D, Chen L, Wu B, Wang M (1989) Interpenetrating polymer networks based on polybutadiene-based polyurethane. In: Klempner D, Frisch K (eds) Advances in interpenetrating polymer networks, vol 1. Technomic, Lancaster, PA, p 303
Lee BK, Kim SC (1995) Polym Adv Technol 14:402
Lipatov YS, Rosovitsky VF, Alekseeva TT, Babkina NV (1988) Dokl Akad Nauk UkrSSR B5:52
Fesko D, Tschoegl NW (1971) J Polym Sci C 35:51
Takayanagi M, Uemura S, Minami S (1964) J Polym Sci C 5:113
Kraus G (1971) In: Multicomponent polymer materials. Adv Chem Ser 99. American Chemical Society, Washington, DC, p 189
Frisch KC, Klempner D, Frisch HL, Ghiradella H (1974) In: Sperling LH (eds) Recent advances in polymer blends, grafts and block copolymers. Plenum, New York, p 395
Matsuo M, Kwei TK, Klempner D, Frisch HL (1970) Polym Eng Sci 10:327
Lipatov YS (1994) Polymer reinforcement. ChemTec, Toronto
Kim SC, Klempner D, Frisch KC, Frisch HL (1977) Macromolecules 10:1187
Budiansky B (1965) J Mech Phys Solids 13:223
Davies WE (1971) J Phys D 4:318
Rosovitsky VF, Ilavsky M, Hrouz J, Dusek K, Lipatov YS (1979) J Appl Polym Sci 24:1007
Qin J, Li F, Wu Z, Qian B (1990) Interpenetrating polymer networks in acrylic blends and their fibers. In: Klempner D, Frisch K (eds) Advances in interpenetrating polymer networks, vol 2. Technomic, Lancaster, PA, p 205
Sperling LH, George HF, Huelck V (1969) J Appl Polym Sci A2 7:425
Huelck V, Thomas DA, Sperling LH (1972) Macromolecules 5:340
Huelk V, Thomas DA, Sperling LH (1971) Am Chem Soc Prepr 12:665
Donatelli AA, Sperling LH, Thomas DA (1972) Macromolecules 9:676
Yenwo GM, Sperling LH, Pulido J, Manson JA, Conde A (1977) Polym Eng Sci 17:17
Karabanova LV, Boiteax G, Gain U, Seytre G, Sergeeva LM, Lutsuk ED (2004) Polym Int 53:2051
Lipatov YS, Babich VF, Karabanova LV, Korghuk NI, Sergeeva LM (1976) Rep Acad Sci Ukrainian SSR B1:39
Touhsaent RE, Thomas DA, Sperling LH (1976) Adv Chem 154:206
Tsunoda S, Suzuki Y (1990) Interpenetrating polymer networks from epoxy resin and polyacrylate: synthesis, characteristics, and application to electrical/electronic fields. In: Klempner D, Frisch K (eds) Advances in interpenetrating polymer networks, vol 2. Technomic, Lancaster, PA, p 177
Lipatov YS, Sergeeva LM (1986) Usp Khim 55:2086
Macknight WI, Eatness TR (1981) J Polym Sci Rev 6:41
Siegfried DL, Thomas DA, Sperling LH (1981) Polym Eng Sci 21:39
Siegfried DL, Thomas DA, Sperling LH (1980) Polymer Prepr 21:186
Allen G, Bowden MJ, Blundell DJ (1973) Polymer 14:604
Allen G, Bowden MJ, Lewis G (1974) Polymer 15:13
Allen G, Bowden MJ, Lewis G (1974) Polymer 15:19
Lipatov YS, Alekseeva TT, Rosovitsky VF, Babkina NV (1992) Polymer 33:610
Manoj NR, Raut RD, Sivaraman P, Ratna D, Chakraborty BL (2005) J Appl Polym Sci 96:1487
Dadbin S, Frounchi MH (2003) J Appl Polym Sci 89:1583
Vancaeyzeele C, Fichet O, Boileau S, Tayssie D (2005) Polymer 46:6888
Dadbin S, Chaplin RP (2001) J Appl Polym Sci 81:3361
Mathew A, Packirisamy S, Thomas S (2000) J Appl Polym Sci 78:2327
Samui AB, Dalvi VG, Patri M, Chakraborti BC, Deb PC (2003) J Appl Polym Sci 91:354
Ali SA, Hourston DI (1994) Thermoplastic interpenetrating polymer networks. In: Klempner D, Frisch K (eds) Advances in interpenetrating polymer networks, vol 4. Technomic, Lancaster, PA, p 17
Fainleib A, Grigoryeva O, Pissis P (2005) J Balkan Tribol Assoc 11:303
Grigoryeva O, Fainleib A, Sergeeva LM (2005) Thermoplastic polyurethane elastomers in interpenetrating polymer networks. In: Fakirov S (ed) Handbook of condensation thermoplastic elastomers. Wiley-VCH, Weinheim, p 325
Vatalis A, Delides C, Grigoryeva O, Sergeeva L, Brovko A, Zimich O, Shtompel V, Georgoussis G, Pissis P (2000) Polym Eng Sci 40:2072
Vatalis A, Delides C, Georgoussis G, Kyritsis A, Grigoryeva O, Sergeeva L, Brovko A, Zimich O, Shtompel V, Neagu E, Pissis P (2001) Thermochim Acta 371:87
Won HJ, Yong KK, Ick HK (1991) Macromolecules 24:4708
Hermant I, Damyanidu M, Meyer GC (1983) Polymer 24:1419
Rizos AK, Fytas G, Ma RJ, Wang CH, Abetz V, Meyer GC (1993) Macromolecules 26:1869
Pandit SB, Nadkarni VM (1994) Macromolecules 27:4583
Sergeeva L, Grigoryeva O, Zimich O, Privalko E, Shtompel V, Privalko V, Pissis P, Kyritsis A (1997) J Adhesion 64:161
Sergeeva L, Grigoryeva O, Brovko A, Zimich O, Nedashkovskaya N, Slinchenko E, Shtompel V (1997) J Prikladn Khim 70:2038 (in Russian)
Kyritsis A, Pissis P, Grigoryeva O, Sergeeva L, Brovko A, Zimich O, Privalko E, Shtompel V, Privalko V (1999) J Appl Polym Sci 73:385
Sergeeva L, Karabanova L, Grigoryeva O, Zimich O, Gorbach L (1997) Ukr Khim Zh 63:65 (in Russian)
Karabanova LV, Boiteux G, Gain O, Seytre G, Sergeeva LM, Lutsyk ED (2001) J Appl Polym Sci 80:852
Bartolotta A, Carini G, D'Angelo G, Di Marco G, Farsaci F, Grigoryeva O, Sergeeva L, Slisenko O, Starostenko O, Tripodo G (2004) Philos Mag 84:1591
Stepanenko L, Novikova T, Sergeeva L, Shtompel V, Chernobay A (2002) J Appl Chem 75:1341 (in Russian)
Tsonos C, Apekis L, Viras K, Stepanenko L, Karabanova L, Sergeeva L (2000) J Macromol Sci Phys B39:155
Tsonos C, Apekis L, Viras K, Stepanenko L, Karabanova L, Sergeeva L (2001) Solid State Ionics 143:2299
Adache H, Kotaka T (1983) Polym J 15:285
Li B, Zhang D, Peng X, Quian B (1983) Polym Commun N 3:202
Hourston DJ, Lia Y (1983) J Appl Polym Sci 28:3745
Hertmant I, Damyanidu M, Meyer GC (1983) Polymer 24:1419
Roh SS, Hong BT, Kim DS (2003) J Appl Polym Sci 87:1079
Schneider HA (1989) Polymer 30:77
Goldstein M (1985) (1987) Macromolecules 18:277
Couchman PR (1987) Polym Eng Sci 27:618
Frisch KC, Klempner D, Migdal S, Frisch HL, Giradella H (1974) Polym Eng Sci 14:76
Frisch HL, Frisch KC, Klempner D (1974) Polym Eng Sci 14:648
Shilov VV, Tsukruk VV, Lipatov YS (1984) Vysokomol Soedin A 26:1347
Lipatov YS, Babich VF (1987) Mech Compos Mater 1:17
Lipatov YS, Korzhuk NI, Babich VF (1985) In: Molecular characterization of composite interfaces. Plenum, New York, p 237
Pentrakoon D (1995) PhD thesis, University of Massachusetts
Lipatov YS, Rosovitsky VF (1976) Rep Acad Sci Ukrainian SSR B8:713
Rosovitsky VF, Lipatov YS (1986) In: Physical chemistry of multicomponent polymeric systems, vol 2. Naukova Dumka, Kiev, p 229
Lipatov YS, Rosovitsky VF, Maslak YV (1984) Vysokomol Soedin A 24:1029
Ferry J (1974) Viscoelastic properties of polymers, 2d edn. Wiley, New York
Lipatov YS, Rosovitsky VF, Babkina NV (1993) Polymer 34:4697
Berstein VA, Egorov VM (1990) Differential scanning calorimetry in physical chemistry of polymers. Chimiya, Leningrad (in Russian)
Lindenmeyer PH (1979) J Polym Sci Polym Phys 17:1965
Sperling LH, Fay JJ (1991) Polym Adv Technol 2:49
Yazdani-Ardakani S, Kesavan SK (1987) Polymer 28:241
Chang MCO, Thomas DA, Sperling LH (1987) J Appl Polym Sci 34:409
Chang MCO, Thomas DA, Sperling LH (1988) J Polym Sci Polym Phys 26:1627
Fay JJ, Thomas DA, Sperling LH (1991) J Appl Polym Sci 43:1623
Foster JN, Sperling LH, Thomas DA (1987) J Appl Polym Sci 33:2637
Hourston DJ, Zarandouz M (1994) Polyurethane-polydimethylsiloxane simultaneous interpenetrating polymer networks. In: Klempner D, Frisch K (eds) Advances in interpenetrating polymer networks vol 2. Technomic, Lancaster, PA, p 101
Rosovitsky VF, Lipatov YS (1985) Dokl Akad Nauk SSSR 283:910
Lipatov YS, Rosovitsky VF, Datsko P, Maslak Y (1987) Mech Compos Mater 6:1082 (Riga)
Lipatov YS, Rosovitsky VF, Datsko P, Maslak Y (1988) J Appl Polym Sci 36:1143
Lipatov YS, Alekseeva TT (1992) Prog Chem 61:2187 (in Russian)
Suthar B, Xiao HX, Klempner D, Frisch KC (1996) Polym Adv Technol 7:221
Djomo H, Morin A, Damayanidu M, Meyer GC (1983) Polymer 24:65
Gladyshev GP, Popov VA (1974) Radical polymerization at high conversion degrees. Nauka, Moscow (in Russian)
Meyer GC (1983) Makromol Chem Rapid Commun 4:221
Jin SR, Meyer GC (1986) Polymer 227:592
Jin SR, Widmaier JM, Meyer GC (1988) Polym Commun 29:26
Derrough SN, Rouf C, Widmaier JM, Meyer GC (1991) Polym Mater Sci Eng 65:1
Hsu TJ, Lee LJ (1988) J Appl Polym Sci 36:1157
Lee LJ (1981) Polym Eng Sci 21:483
Yang YS, Lee LJ (1987) Macromolecules 20:1490
Ramis X, Cadenato A, Morancho JM, Salla JM (2001) Polymer 42:9469
Jenninger W, Schawe JEK, Alig I (2000) Polymer 41:1577
Dean K, Cook WD, Burchill P, Zipper M (2001) Polymer 42:3589
Ivankovic M, Dzodan N, Brnardic I, Mencer HJ (2002) Appl Polym Sci 83:2689
Kulkazni AS, Beaucage G (2005) Polymer 46:4454
Jin SR, Widmaier JM, Meyer GC (1988) Polymer 29:347
Rouf C, Derrough S, Andre JJ, Widmaier JM, Meyer GC (1994) In: Klempner D, Sperling LH, Utracki LA (eds) Interpenetrating polymer networks. Adv Chem Ser 239. American Chemical Society, Washington, DC, p 143
Grigoryeva O, Fainleib A, Pissis P, Boiteux G (2002) Polym Eng Sci 42:2440
Nowers JR, Narasimhan B (2006) Polymer 47:1108
Cui Y, Chen Y, Wang X, Tian G, Tang X (2002) Polymer 52:1246
Fichet O, Vidal F, Laskar J, Teyssie D (2005) Polymer 46:37
Laskar J, Vidal F, Fichet O, Gauthier C, Teyssie D (2004) Polymer 45:5047
Kiguchi T, Aota H, Matsumoto A (2004) J Appl Polym Sci 94:1198
Dean KM, Cook WD (2004) Polym Int 53:1305
Widmaier JM, Meyer GC (1989) Chemical aspects in the formation of interpenetrating polymer networks. In: Klempner D, Frisch K (eds) Advances in interpenetrating polymer networks, vol 1. Technomic, Lancaster, PA, p 155
Hermant IM, Damayanidu M, Meyer GC (1983) Polymer 24:1419
Lipatov YS, Alekseeva TT, Rosovitsky VF (1989) Dokl Akad Nauk SSSR 307:883
Kim SK, Kim SC (1990) Polym Bull 23:141
Xue SC, Zhang ZP, Wing SK (1989) Polymer 30:1269
Semenovich GM, Lipatov YS, Skiba SL, Sergeeva LM (1988) Dokl Akad Nauk SSSR 301:384
Lipatov YS, Semerovich GM, Skiba SI, Karabanova LV, Sergeeva LM (1992) Polymer 33:361
Lipatov YS, Grigoryeva O (1983) Rep Acad Sci Ukrainian SSR B11:42
Shilov VV, Lipatov YS, Karabanova LV, Sergeeva LM (1979) J Polym Sci Polym Chem 17:3083
Lipatov YS, Alekseeva TT (1991) Polym Commun 32:254
He X, Widmaier JM, Meyer GC (1991) Polym Mater Sci Eng 65:44
Tabka N, Widmaier JM, Meyer GC (1991) Plastics Rubber Compos Proc Appl 16:11
Zhou P, Xu Q, Frisch HL (1994) Macromolecules 27:938
Riccardi CC, Boprrajop J, Meynse L, Fenouillot F, Pascault JP (2004) J Polym Sci Phys 42:1351
Lipatov YS, Alekseeva TT, Rosovitsky VF, Babkina NV (1993) Polym Sci A 35:652
Stanford JL, Ryan AJ, Yang Y (2001) Polym Int 50:1035
Partizel N, Meyer G, Weill G (1993) Polymer 34:2495
Nair CPR, Francis T (1999) J Appl Polym Sci 74:3365
Sanchez MS, Ferrer GG, Gabanilles CT, Duenas JMM, Pradas MM, Ribelles JLG (2001) Polymer 42:10071
Tokareva NN, Duflot VR (1990) Vysokomol Soedin A 32:1250
Bol'bit NM, Duflot VR (2002) Polym Sci A 44:394
Widmaier JM, Nilly A, Chenal JM, Mathis A (2005) Polymer 46:3318
Chenal JM, Widmaier JM (2005) Polymer 46:671
Chenal JM, Colombini D, Widmaier JM (2006) J Appl Polym Sci 99:2989
Lipatov Y (2007) Polym Bull 58:105
Lipatov Y, Kosyanchuk LF, Nesterov AE, Antonenko OI (2003) Polym Int 52:664
Alekseeva TT, Yarova NV, Lipatov YS (2005) Rep NASU 3:128 (in Russian)
Alekseeva TT, Lipatov YS, Yarova NV (2005) Polym Sci A 47:891
Alekseeva TT, Lipatov YS, Babkina NV, Grishchuk SI, Jarova NV (2005) Polymer 46:419
Alekseeva TT, Grishchuk SI, Lipatov YS, Babkina NV, Jarova NV (2003) Polym Sci A 45:1237
Lipatov YS, Kosyanchuk LF, Jarova NV (2003) Rep Acad Sci Ukraine 2:151
Avrami M (1939) J Chem Phys 7:1103
Erofeev BV (1949) Dokl Akad Nauk SSSR 52:515
Kotova AA, Lanzov VM, Abdrakhmanova LA, Mezhikovsky SM (1987) Vysokomol Soedin A 29:1761
Roshchupkin VP, Ozerkovsky BV, Karapetyan ZA (1977) Vysokomol Soedin A 19:2239
Alekseeva TT, Lipatova TE, Lipatov YS (1995) Polym Sci A 37:1194
Lipatov YS, Alekseeva TT, Shumsky VF (1991) Dokl Akad Nauk SSSR 318:590
Zhu S, Tiem Y, Hamillec A, Eaton D (1990) Polymer 31:154
Lipatov YS, Alekseeva TT, Shumsky VF (1992) Dokl Akad Nauk UkrSSR B6:131
Vinogradov GV, Malkin AY, Plotnikova EP (1978) Vysokomol Soedin A 20:226
Mikhal'chuk VM, Stroganoff VF, Lipatov YS (1995) Polym Sci A 37:1672
Lipatov YS (1987) Dokl Akad Nauk SSSR 296:646
Polak LS (1983) Self-organization in nonequilibrium physico-chemical systems. Nauka, Moscow (in Russian)
Lipatov YS (2002) Prog Polym Sci 27:1721
Lipatov YS, Alekseeva TT, Rosovitsky VF, Babkina NV (1994) Polym Network Blend 4:9
Lipatov YS, Alekseeva TT, Rosovitsky VF, Babkina NV (1995) Polym Int 37:97
Seminovych GM, Fainleib AM, Slinchenko EA, Brovko AA, Sergeeva LM, Dudkova VI (1999) React Funct Polym 40:281
Brovko AA, Fainleib AM, Slinchenko EA, Dudkova VI, Sergeeva LM (2001) Compos Polym Mater 23:85
Paul DR, Newman S (1978) Polymer blends, vol 2. Academic, New York
Utracki L (1989) Polymer alloys and blends. Hanser, New York
Hermes HE, Higgins JS (1998) Polym Sci Eng 38:847
Lipatov YS (1991) Sci Eng Compos Mater 2:69
Riese G, Hurtrez G, Bahadier P (1986) Encyclopedia of polymer science and engineering, 2nd edn, vol 2. Wiley, New York, p 390
Nevissas V, Widmaier JM, Mayer GC (1988) J Appl Polym Sci 36:1467
Hourston DJ, Zia Y (1984) J Appl Polym Sci 29:629
Scarito PR, Sperling LH (1974) J Polym Sci C 46:175
Hourston DJ, Schafer FU (1997) In: Kim SC, Sperling LH (eds) IPNs around the world: science and engineering. Wiley, New York, p 155
Hourston DJ, Schafer FU (1996) Polym Adv Technol 7:273
Lipatov YS, Alekseeva TT, Babkina NV (2001) J Polym Mater 18:201
Cassidy EF, Xiao HX, Frisch KC, Frisch HL (1984) J Pol Sci Polym Chem Ed 22:1851
Hsieh KH, Chou LM, Chiang YC (1989) Polym J 21:1
Han X, Chen B, Guo F (1997) In: Kim SC, Sperling LH (eds) IPNs around the world: science and engineering. Wiley, New York, p 241
Yu X, Gao G, Wang J, Li F, Tang X (1999) Polym Int 48:805
Wang MV, Lee CT, Lin MS (1997) Polym Int 44:503
He X, Widmaier JM, Meyer GC (1993) Polym Int 32:289
Lipatov YS, Alekseeva TT (1997) In: Kim SC, Sperling LH (eds) IPNs around the world: science and engineering. Wiley, New York, p 75
Suthar B, Xiao HX, Klempner D, Frisch KC (1997) In: Kim SC, Sperling LH (eds) IPNs around the world: science and engineering. Wiley, New York, p 49
Kim JH, Kim SC (1987) Polym Eng Sci 27:1243
Kim JH, Kim SC (1987) Polym Eng Sci 27:1252
Alekseeva TT, Lipatov YS, Babkina NV (2001) Macromol Symp 164:91
Alekseeva TT, Lipatov YS, Grishchuk SI, Babkina NV (2003) Macromol Symp 210:219
Babkina NV, Lipatov YS, Alekseeva TT (2005) Polym Sci A 47:2118
Eklind H (1996) Interphases in polymer blends. Thesis, Chalmers University of Technology
Beckman EJ, Karasz FE, Porter RS, MacKnight WJ (1988) Macromolecules 21:1193
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Lipatov, Y.S., Alekseeva, T.T. (2007). Phase-Separated Interpenetrating Polymer Networks. In: Phase-Separated Interpenetrating Polymer Networks. Advances in Polymer Science, vol 208. Springer, Berlin, Heidelberg. https://doi.org/10.1007/12_2007_116
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