Phase-Separated Interpenetrating Polymer Networks |
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Page viii
... Temperature Transitions 124 4.6 Contribution of an Interphase to Viscoelastic Properties 126 4.7 Effect of the Domain Sizes on the Glass Transition Temperatures . 128 4.8 Relaxation Spectra of IPNs 4.9 130 5.2 5.4 5.7. Formation and ...
... Temperature Transitions 124 4.6 Contribution of an Interphase to Viscoelastic Properties 126 4.7 Effect of the Domain Sizes on the Glass Transition Temperatures . 128 4.8 Relaxation Spectra of IPNs 4.9 130 5.2 5.4 5.7. Formation and ...
Page 1
... Temperature Transitions . . 4.6 Contribution of an Interphase to Viscoelastic Properties . 4.7 4.8 Effect of the Domain Sizes on the Glass Transition Temperatures Relaxation Spectra of IPNs 103 105 111 116 120 124 126 128 130 4.9 ...
... Temperature Transitions . . 4.6 Contribution of an Interphase to Viscoelastic Properties . 4.7 4.8 Effect of the Domain Sizes on the Glass Transition Temperatures Relaxation Spectra of IPNs 103 105 111 116 120 124 126 128 130 4.9 ...
Page 14
... temperature above glass transition consists of two components : σx estimated from the classical theory and σy бу connected with the network topology [ 29 ] . The share of topological compon- ent depends on the chemical cross - linking ...
... temperature above glass transition consists of two components : σx estimated from the classical theory and σy бу connected with the network topology [ 29 ] . The share of topological compon- ent depends on the chemical cross - linking ...
Page 21
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Page 47
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Contents
3 | |
4 | |
Contents | 23 |
2 | 35 |
70 | 52 |
Heterogeneous Structure and Morphology of IPNs | 65 |
5 | 67 |
6 | 73 |
8 | 137 |
5 | 147 |
of IPN Formation | 157 |
6 | 168 |
of Polyurethane and Polymerization of Butyl Methacrylate | 169 |
Kinetics of Formation of Sequential IPNs | 179 |
of SemiIPNs During Their Formation | 186 |
137 | 194 |
8 | 75 |
Characterization of IPN Structure via SmallAngle Neutron Scattering | 84 |
4 | 106 |
3 | 116 |
2 | 119 |
5 | 124 |
7 | 129 |
2 | 201 |
4 | 208 |
References | 218 |
Prof Ian Manners 55128 Mainz Germany | 219 |
Advances in Polymer Science | 223 |
Other editions - View all
Phase-Separated Interpenetrating Polymer Networks Yuri S. Lipatov,Tatiana Alekseeva Limited preview - 2007 |
Phase-Separated Interpenetrating Polymer Networks Yuri S. Lipatov,Tatiana Alekseeva No preview available - 2010 |
Phase-Separated Interpenetrating Polymer Networks Yuri S. Lipatov,Tatiana Alekseeva No preview available - 2009 |
Common terms and phrases
activation energy based on PU blends calculated chains changes characterized chemical compared compatibilization components composition concentration constituent networks conversion degree copolymer cross-linked PU cross-linking density curing decrease determined domains dynamic mechanical effect elastic modulus epoxy equation evolved phases free energy free volume gelation glass transition temperatures heterogeneous structure increase initial interaction interfacial interpenetrating interphase ionomer IPN formation IPNs based kinetics of IPN Lipatov YS mass matrix maximum microphase separation microregions miscibility mixture modulus molecular molecular mass monomer morphology network formation nonequilibrium onset of phase OUDM parameters particles PBMA phase separation PMMA polymer polymer networks polymerization PU formation PU network PU/PBMA PU/PS pure PU ratio reaction kinetics reaction rate region relaxation result scattering second network segregation degree semi-IPNs sequential IPNs simultaneous IPNs spinodal decomposition structure of IPNs styrene temperature dependence thermodynamic thermoplastic thermoplastic AIPNs tion two-phase values viscoelastic viscoelastic properties viscosity volume fraction