The deformed structure of silica-filled elastomers under uniaxial strain has been investigated using a combination of both small angle x-ray scattering and small angle neutron scattering methods. Using an extraction procedure and taking into account the two-phase nature of these polymer-based composites, the single chain scattering behavior as well as filler properties could be obtained uniquely on identical samples. For the first time the deformation of the rubbery matrix on the length scale of the network chain in a filled rubber could be determined and therewith the importance of matrix overstrain for the mechanical properties was estimated. Additionally, the determination of filler deformation and filler destruction presents microscopic details of the mechanisms of filler networking and the stress-softening Mullins effect.

1.
S.
Ahmed
and
F.
Jones
,
J. Mater. Sci.
25
,
4933
(
1990
).
2.
B.
Boonstra
,
Polymer
20
,
691
(
1979
).
3.
R.
Christensen
,
Mechanics of Composite Materials
(
Wiley
,
New York
,
1979
).
4.
S.
Wolff
and
J.
Donnet
,
Rubber Chem. Technol.
63
,
32
(
1990
).
5.
G.
Raos
,
Macromol. Theory Simul.
12
,
17
(
2003
).
6.
M.
Klueppel
,
R.
Schuster
, and
G.
Heinrich
,
Rubber Chem. Technol.
70
,
243
(
1996
).
7.
G.
Raos
and
G.
Allegra
,
J. Chem. Phys.
113
,
7554
(
2000
).
8.
M.
Klueppel
and
J.
Schramm
,
Macromol. Theory Simul.
9
,
742
(
2000
).
9.
G.
Huber
and
T.
Vilgis
,
Kautsch. Gummi Kunstst.
52
,
102
(
1999
).
10.
G.
Heinrich
,
M.
Klueppel
, and
T.
Vilgis
,
Curr. Opin. Solid State Mater. Sci.
6
,
195
(
2002
).
11.
T.
Vilgis
,
Polymer
46
,
4223
(
2005
).
12.
A.
Lapra
,
F.
Clement
,
L.
Bobobza
, and
L.
Monnerie
,
Rubber Chem. Technol.
76
,
61
(
2002
).
13.
T. A.
Witten
,
M.
Rubinstein
, and
R.
Colby
,
J. Phys. II France
3
,
367
(
1993
).
14.
A.
Medalia
,
Rubber Chem. Technol.
60
,
45
(
1987
).
15.
G.
Kraus
,
Reinforcement of Elastomers
(
Wiley
,
New York
,
1965
).
16.
M.
Klueppel
,
Adv. Polym. Sci.
164
,
1
(
2003
).
17.
G.
Heinrich
and
M.
Klueppel
,
Adv. Polym. Sci.
160
,
1
(
2002
).
18.
P.
Ekanayake
,
H.
Menge
,
H.
Schneider
,
M.
Ries
,
M.
Brereton
, and
P. G.
Klein
,
Macromolecules
33
,
1807
(
2000
).
19.
S.
Westermann
,
M.
Kreitschmann
,
W.
Pyckhout-Hintzen
,
D.
Richter
,
E.
Straube
,
B.
Farago
, and
G.
Goerigk
,
Macromolecules
32
,
5793
(
1999
).
20.
A.
Botti
,
W.
Pyckhout-Hintzen
,
D.
Richter
,
V.
Urban
,
E.
Straube
, and
J.
Kohlbrecher
,
Polymer
44
,
7505
(
2003
).
21.
S.
Westermann
,
W.
Pyckhout-Hintzen
,
D.
Richter
,
E.
Straube
,
S.
Egelhaaf
, and
R.
May
,
Macromolecules
34
,
2186
(
2001
).
22.
J.
Berriot
,
D.
Lequeu
,
H.
Montes
, and
H.
Pernot
,
Polymer
43
,
6131
(
2002
).
23.
P.
Flory
,
Principles of Polymer Chemistry
(
Cornell University Press
,
Ithaca, New York
,
1953
).
24.
V.
Urban
, thesis,
University of Munster
,
1995
.
25.
G.
Beaucage
,
J. Appl. Crystallogr.
29
,
134
(
1996
).
You do not currently have access to this content.