Chemistry Reference
In-Depth Information
136. Mark, J. E.,
Polymer Data Handbook
. Oxford University Press: New York, 1999.
137. Wang, S.; Mark, J. E., Reinforcement of Elastomeric Poly(dimethylsiloxane) by
Glassy Poly(diphenylsiloxane).
J. Mater. Sci
.
1990
,
25
, 65-68.
138. Ibemesi, J.; Gvozdic, N.; Keumin, M.; Tarshiani, Y.; Meier, D. J., Synthesis and
Properties of Copolymers of Diphenylsiloxane with Other Organosiloxanes. In
Polymer-Based Molecular Composites
, Schaefer, D. W.; Mark, J. E., Eds. Materi-
als Research Society: Pittsburgh, PA, 1990; Vol. 171, pp 105-115.
139. Nagy, M.; Keller, A., Ellipsoidal Polymer Particles with Predesigned Axial-
Ratio.
Polymer Comm
.
1989
,
30
, 130-132.
140. Wang, S.; Mark, J. E., Generation of Glassy Ellipsoidal Particles within an
Elastomer by In-Situ Polymerization, Elongation at an Elevated Temperature,
and Finally Cooling Under Strain.
Macromolecules
1990
,
23
, 4288-4291.
141. Ho, C. C.; Hill, M. J.; Odell, J. A., Morphology of Ellipsoidal Latex-Particles.
Polymer
1993
,
34
, 2019-2023.
142. Ho, C. C.; Keller, A.; Odell, J. A.; Ottewill, R. H., Monodisperse Ellipsoidal Pol-
ystyrene Latex Particles: Preparation and Characterisation.
Polym. Int
.
1993
,
30
, 207-212.
143. Ho, C. C.; Keller, A.; Odell, J. A.; Ottewill, R. H., Preparation of Monodisperse
Ellipsoidal Polystyrene Particles.
Coll. Polym. Sci
.
1993
,
271
, 469-479.
144. Wang, S.; Xu, P.; Mark, J. E., Method for Generating Oriented Oblate Ellipsoi-
dal Particles in an Elastomer and Characterization of the Reinforcement They
Provide.
Macromolecules
1991
,
24
, 6037-6039.
145. Okada, A.; Kawasumi, M.; Usuki, A.; Kojima, Y.; Kurauchi, T.; Kamigaito, O.,
Nylon 6-Clay Hybrid. In
Polymer-Based Molecular Composites
, Schaefer, D. W.;
Mark, J. E., Eds. Materials Research Society: Pittsburgh, PA,1990; Vol. 171, pp
45-50.
146. Pinnavaia, T. J.; Lan, T.; Wang, Z.; Shi, H.; Kaviratna, P. D., Clay-Reinforced
Epoxy Nanocomposites: Synthesis, Properties, and Mechanism of Formation.
In
Nanotechnology. Molecularly Designed Materials
, Chow, G.-M.; Gonsalves, K.
E., Eds. American Chemical Society: Washington, DC, 1996; Vol. 622, pp
250-261.
147. Giannelis, E. P., Organoceramic Nanocomposites. In
Biomimetic Materials
Chemistry
, Mann, S., Ed. VCH Publishers: New York, 1996; pp 337-359.
148. Vaia, R. A.; Giannelis, E. P., Liquid Crystal Polymer Nanocomposites: Direct
Intercalation of Thermotropic Liquid Crystalline Polymers into Layered Sili-
cates.
Polymer
2001
,
42
, 1281-1285.
149. Vaslilakos, S. P.; Tarantili, P. A., Mechanical Properties and Nanostructure
Correlation of Condensed-Type Poly(dimethylsiloxane)/Layered Silicate Hy-
brids.
J. Appl. Polym. Sci
.
2012
,
125
, 548-560.
150. Kim, F. S.; Kim, E. J.; Lee, T. H.; Yoon, J.-S., Clay Modification and Its Effect on
the Physical Properties of Silicone Rubber/Clay Composites.
J. Appl. Polym. Sci
.
2012
,
125
, 298-304.
151. Sharaf, M. A.; Mark, J. E., Monte Carlo Simulations on Filler-Induced Network
Chain Deformations and Elastomer Reinforcement from Oriented Oblate Par-
ticles.
Polymer
2002
,
43
, 643-652.
152. Mark, J. E., New Developments and Directions in the Area of Elastomers and
Rubberlike Elasticity.
Macromol. Symp., Kyoto issue
2003
,
201
, 77-83.
153. Sharaf, M. A.; Kloczkowski, A.; Sen, T. Z.; Jacob, K. I.; Mark, J. E., Molecular
Modeling of Matrix Chain Deformation in Nanofiber Filled Composites.
Coll.
Poly. Sci.
2006
,
284
, 700-709.