Chemistry Reference
In-Depth Information
284. Hoei, Y.; Ikeda, Y.; Sasaki, M., A Frozen Tube Model of Melting Point Depres-
sion of Solvents in Entangled Polymer Systems.
J. Phys. Chem. B
2003
,
107
,
1483-1490.
285. Billamboz, N.; Nedelec, J.-M.; Grivet, M.; Baba, M., Cross-Linking of Polyole-
fins: A Study by Thermoporosimetry with Benzene Derivatives as Swelling
Solvents.
ChemPhysChem
2005
,
4
, 1126-1132.
286. Oodo, K.; Masuda, T.; Fujimori, H., Estimation of the Pore Diameter of Or-
ganosilane-Modified Silica Based on the Fusion Temperature of Ice.
J. Non-
Cryst. Solids
2011
,
357
, 683-685.
287. Madkour, T.; Mark, J. E., Some Evidence on Pore Sizes in Poly(dimethylsiloxane)
Elastomers Having Unimodal, Bimodal, or Trimodal Distributions of Network
Chain Lengths.
Polym. Bull.
1993
,
31
, 615-621.
288. Clarson, S. J.; Mark, J. E.; Semlyen, J. A., Studies of Cyclic and Linear
Poly(dimethylsiloxanes): 24. Topological Trapping of Cyclic Polymers into Uni-
modal and Bimodal Model Network Structures.
Polym. Comm
.
1987
,
28
,
151-153.
289. Oikawa, H., Dynamic Light Scattering Study on a Bimodal End-Linked
Polydimethylsiloxane Network Structure.
Polymer
1992
,
33
, 1116-1119.
290. Saalwachter, K.,
1
H Multiple-Quantum Nuclear Magnetic Resonance Investi-
gations of Molecular Order in Polymer Networks: Evidence for a Linear
Mixing Law in Bimodal Systems.
J. Chem. Phys
.
2003
,
119
, 3468-3482.
291. Saalwachter, K.; Kleinschmidt, F., Swelling Heterogeneities in End-Linked
Model Networks: A Combined Proton Multiple-Quantum NMR and Computer
Simulation Study.
Macromolecules
2004
,
37
, 8556-8568.
292. Saalwachter, K.,
1
H Multiple-Quantum Nuclear Magnetic Resonance Investi-
gations of Molecular Order in Polymer Networks. II. Intensity Decay and Re-
stricted Slow Dynamics.
J. Chem. Phys
.
2004
,
120
, 454-464.
293. Nasir, M.; Teh, G. K., The Effects of Various Types of Crosslinks on the Physi-
cal-Properties of Natural-Rubber.
Eur. Polym. J.
1988
,
24
(8), 733-736.
294. Sharaf, M. A.; Mark, J. E., Elastomers with Polysulfidic Cross Links Viewed as
Bimodal Networks.
J. Macromol. Sci., Chem.
1991
,
A28
, 67-73.
295. Sharaf, M. A.; Mark, J. E.; Hosani, Z. Y. A., Regular Bimodal Polydimethylsi-
loxane Networks. Elastomeric Properties of the Tetrafunctional Networks.
Eur. Polym. J
.
1993
,
29
, 8 0 9 - 817.
296. Sharaf, M. A.; Mark, J. E.; Al-Ghazal, A. A.-R., Elastomeric Properties of
Poly(dimethylsiloxane) Networks Having High-Functionality Crosslinks and
Bimodal Chain-Length Distributions.
J. Appl. Polym. Sci. Symp
.
1994
,
55
,
139-152.
297. Sharaf, M. A.; Mark, J. E., The Modulus of Randomly-Crosslinked
Poly(dimethylsiloxane) Networks.
Polym. Gels Networks
1993
,
1
, 33-44.
298. Sharaf, M. A.; Mark, J. E., Dependence of the Moduli of Random Bimodal Net-
works on Chain-Length Distribution.
Makromol. Symp
.
1993
,
76
, 13-31.
299. Quan, X., Properties of Post-Cured Siloxane Networks.
Polym. Eng. Sci
.
1989
,
29
, 1419 -1425.
300. Madkour, T.; Hamdi, M. S., Bimodals from Two XL systems.
J. Appl. Polym. Sci
.
1996
,
61
(8), 1239-1244.
301. Isayev, A. I.; Kim, S. H.; Levin, V. Y., Superior Mechanical Properties of Re-
claimed SBR with Bimodal Network.
Rubber Chem. Technol
.
1997
,
70
, 194-201.
302. Yun, J.; Isayev, A. I., Superior Mechanical Properties of Ultrasonically Recy-
cled EPDM Rubber.
Rubber Chem. Technol
.
2003
,
76
, 253-270.
