Chemistry Reference
In-Depth Information
116. Mott, P. H.; Roland, C. M., Mechanical and Optical Properties of Double Net-
work Rubbers.
Macromolecules
2000
,
33
, 4132-4137.
117. Gong, J. P.; Katsuyama, Y.; Kurokawa, T.; Osada, Y., Double Network Hydro-
gels with Extremely High Mechanical Strength.
Adv. Mater
.
2003
,
15
,
1155-1158.
118. Na, Y.-H.; Kurokawa, T.; Katsuyama, Y.; Tsukeshiba, H.; Gong, J. P.; Osada, Y.;
Okabe, S.; Karino, T.; Shibayama, M., Structural Characteristics of Double
Network Gels with Extremely High Mechanical Strength.
Macromolecules
2004
,
37
, 5370-5374.
119. Naficy, S.; Razal, J. M.; Whitten, P. G.; Wallace, G. G.; Spinks, G. M., A pH-
Sensitive, Strong Double-Network Hydrogel: Poly(ethylene glycol) Methyl
Ether Methacrylates-Poly(acrylic acid).
J. Polym. Sci., Part B: Polym. Phys
.
2011
,
50
, 423-430.
120. Tanaka, Y.; Kuwabara, R.; Na, Y.-H.; Kurokawa, T.; Gong, J. P.; Osada, Y., De-
termination of Fracture Energy of High Strength Double Network Hydrogels.
J. Phys. Chem. B
.
2005
,
109
, 11559-11562.
121. Mark, J. E., Rubber Elasticity.
J. Chem. Educ
.
1981
,
58
, 898-903.
122. Mark, J. E., New Developments and Directions in the Area of Elastomers and
Rubberlike Elasticity.
Macromol. Symp., Kyoto issue
2003
,
201
, 77-83.
123. Mark, J. E., Some Recent Theory, Experiments, and Simulations on Rubberlike
Elasticity.
J. Phys. Chem. B
2003
,
107
, 903-913.
124. Treloar, L. R. G.,
The Physics of Rubber Elasticity
, 3rd ed. Clarendon Press:
Oxford, 1975.
125. Stepto, R. F. T.; Taylor, D. J. R., Molecular Modeling of the Elastic Behavior of
Polymer Chains in Networks.
J. Chem. Soc., Faraday Trans
.
1995
,
91
,
2639-2647.
126. Flory, P. J.,
Principles of Polymer Chemistry
. Cornell University Press: Ithaca NY,
1953.
127. Erman, B.; Mark, J. E., Rubber-like elasticity.
Ann. Rev. Phys. Chem
.
1989
,
40
,
351-374.
128. Clement, F.; Bokobza, L.; Monnerie, L., On the Mullins Effect in Silica-Filled
Polydimethylsiloxane Networks.
Rubber Chem. Technol
.
2001
,
74
, 847-870.
129. Hanson, D. E.; Hawley, M.; Houlton, R.; Chitanvis, K.; Rae, P.; Orler, E. B.;
Wrobleski, D. A., Stress Softening Experiments in Silica-Filled Polydimethylsi-
loxane Provide Insight Into a Mechanism for the Mullins Effect.
Polymer
2005
,
46
, 10989-10995.
130. Diani, J.; Fayolle, B.; Gilormini, P., A Review of the Mullins Effect.
Eur. Polym.
J
.
2009
,
45
, 601- 612.
131. Clement, F.; Bokobza, L.; Monnerie, L., Investigation of the Payne Effect and
Its Temperature Dependence on Silica-Filled Polydimethylsiloxane Networks.
Part I. Experimental Results.
Rubber Chem. Technol
.
2005
,
78
, 211-231.
132. Clement, F.; Bokobza, L.; Monnerie, L., Investigation of the Payne Effect and
Its Temperature Dependence on Silica-Filled Polydimethylsiloxane Networks.
Part II. Test
Rubber Chem. Technol
.
2005
,
78
, 232-244.
133. Lupton, E. M.; Achenbach, F.; Weis, J.; Brauchle, C.; Frank, I., Modified Chem-
istry of Siloxanes Under Tensile Stress: Interaction with Environment.
J. Phys.
Chem. B
2006
,
110
, 14557-14563.
134. Lupton, E. M.; Achenbach, F.; Weis, J.; Brauchle, C.; Frank, I., Origins of Mate-
rial Failure in Siloxane Elastomers from First Principles.
ChemPhysChem
2009
,
10
, 119 -123.