Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – From silicon reactant having at least one...
Reexamination Certificate
1998-11-12
2001-10-09
Dawson, Robert (Department: 1712)
Synthetic resins or natural rubbers -- part of the class 520 ser
Synthetic resins
From silicon reactant having at least one...
C528S034000, C524S431000, C524S588000, C524S847000
Reexamination Certificate
active
06300453
ABSTRACT:
This invention is concerned with curable polyorganosiloxane compositions and more particularly with polyorganosiloxane compositions which cure to form elastomeric masses. It also relates to a method of using said compositions as sealing materials.
Polyorganosiloxane compositions which cure to elastomeric masses are well known. Typically such compositions are obtained by mixing a polydiorganosiloxane having reactive terminal groups, for example, silanol groups, with a silane cross-linking agent, for example, an alkoxysilane, an acetoxysilane or an oximosilane, in the presence of a catalyst. These materials are curable upon exposure to atmospheric moisture at room temperature.
An important application of the above-described curable compositions is their use in sealant compositions. For use in sealants, a suitable composition should be capable of curing to a material which has a low modulus and a high elongation at break in a relatively short cure time. Other desirable attributes include the ability of the composition to cure to a clear, transparent or “water white” product which retains its translucency and lack of colour during use.
In an attempt to achieve the desired properties, one method described in the art comprises the use of curable compositions containing silanes in which chain extension occurs during the curing of the composition. To achieve chain extension, silanes containing only two functional groups are required for example, dialkoxysilanes and, in fact, numerous references describe compositions containing such silanes. Dialkoxysilanes, however, hydrolyse at a slower rate than trialkoxysilanes which are the preferred silanes.
Alkoxysilanes substituted with large hydrocarbon groups have been used in sealant compositions to achieve chain extension reactions and sealants with low modulus and high elongation at break. For instance, phenyltrimethoxysilane has been used in such curable compositions. The use of this alkoxysilane, however, has been shown to increase the cure time of curable compositions and additionally, the resultant cured product lacks the clarity desired for sealant applications.
We have now surprisingly found that if one employs an alkoxy- or acetoxy-silane having alkylpolyalkoxy or alkylpolyacetoxy groups and long chain alkyl groups in a curable composition, one may achieve cured materials of comparatively low modulus and comparatively higher elongation at break, without seriously impacting cure time. We have also found that seals formed from such curable compositions are more durable due to the reduced stress at the sealant-substrate interface. Additionally, certain curable formulations containing these type of silanes also retain the desired clarity after cure.
The present invention provides in one of its aspects a composition capable of curing to form an elastomeric mass, said composition comprising a polymeric material having at least one hydroxyl or hydrolyzable group bonded to silicon, a crosslinking agent and a compound capable of catalysing a reaction therebetween, characterised in that the crosslinking agent comprises a material of the formula R—Si—(OR
1
)
3
, wherein R denotes an alkyl group having from 4 to 8 carbon atoms and each R
1
independently denotes an alkyl or acyl group having from 1 to 20 carbon atoms and the catalyst compound comprises a titanium compound.
Also included within the scope of this invention are the elastomeric products obtained by curing said composition and a method of using said composition as a sealant.
The word “comprising” where used herein is used in its widest sense to mean and to encompass the notions of “include”, “comprehend” and “consist of”.
In a composition according to the invention, the crosslinking agent has the general formula R—Si—(OR
1
)
3
. In this formula, R denotes an alkyl group having from 4 to 8 carbon atoms and is linear, branched or cyclic. R may be, for example, a butyl group e.g. iso-butyl or t-butyl, a pentyl, hexyl, heptyl or octyl group. Preferably, R is a butyl or octyl group and most preferably an iso-butyl group. The length of the alkyl chain of the R group as found in the crosslinking agent is an important contributing factor to the improvement of elongation at break of a cured composition according to the invention. Each R
1
independently denotes an alkyl or acyl group having from 1 to 20 carbon atoms preferably an alkyl group having from 1 to 6 carbon atoms and most preferably a methyl or ethyl group. Mixtures of two or more of the crosslinking agents can also be used in a composition according to the invention.
Examples of preferred crosslinking agents include alkyltrialkoxysilanes and more preferably butyltrimethoxysilane, isobutyltrimethoxysilane, isobutyltriethoxysilane, octyltrimethoxysilane, and octyltriethoxysilane and most preferably isobutyltrimethoxysilane.
In a preferred embodiment of this invention, the crosslinking agent also comprises a material of the general formula R
2
—Si—(OR
1
)
3
in which R
1
is as described above and R
2
represents a hydrocarbon group other than R. For example, a preferred composition comprises a crosslinking agent comprising the above preferred alkyltrialkoxysilanes mixed with trialkoxysilanes in which R
2
represents a methyl, ethyl, propyl or vinyl group and preferably a methyl group. The mixtures of crosslinking agent and trialkoxysilane can be at any molar ratio desired such as, for example, from 1:10 to 10:1 but preferably the materials are mixed at a molar ratio of from 1:2 to 2:1 and more preferably at a molar ratio of about 1:1. In a more preferred embodiment of the invention, the crosslinking agent comprises a mixture of isobutyltrimethoxysilane and methyltrimethoxysilane at a molar ratio of about 1:1.
The crosslinking agent is employed in an amount sufficient to ensure adequate stability of the composition during storage whilst giving adequate rate of cure of the composition when exposed to atmospheric moisture. Generally, it is preferred that the crosslinking agent is used in the range of from about 0.1 to about 25 weight percent and more preferably from about 0.5 to about 10 weight percent, based on the weight of the polymeric material.
In a composition according to the invention, the polymeric material comprises any which has at least one hydroxyl or hydrolyzable group bonded to silicon. Generally, polymeric materials which are useful in a composition according to the invention have the general formula X-A-X. In this formula, A denotes an organic or siloxane molecular chain and preferably includes, for example, polyoxyalkylene chains or, more preferably, polyorganosiloxane chains.
Preferably the polyorganosiloxane chains include siloxane units of the formula R
3
a
SiO
4-a/2
In this formula, each R
3
independently represents an alkyl group having from 1 to 10 carbon atoms, for example a methyl, ethyl or propyl group, an alkenyl group, for example a vinyl group, an aryl group, for example a phenyl group, or a fluorinated alkyl group and a has a value of 0, 1 or 2. Preferably the polymer materials are substantially linear, i.e. where a is equal to 2 for most units. The most preferred polyorganosiloxane chains are according to the general formula —(R
3
2
SiO)
t
— in which at least 80% of the R
3
units represent methyl groups and t has a value from about 200 to about 1500. Especially suitable materials have viscosities of about 500 mPa.s to about 200,000 mPa.s at 25° C.
In the above general formula of the polymeric material, at least one of the groups X contains at least one hydroxyl or hydrolyzable group bonded to silicon. Such groups X may be selected, for example, from —R
3
2
SiOH e.g. —Si(CH
3
)
2
OH, —R
3
Si (OR
4
)
2
, —Si(OR
4
)
3
, —R
3
2
SiOR
4
or —R
3
2
SiR
5
SiR
3
p
(OR
4
)
3-p
e.g. —Si(CH
3
)
2
C
2
H
4
Si(OC
2
H
5
)
3
wherein R
3
is as defined above and is preferably a methyl group, R
4
is an alkyl or oxyalkyl group in which the alkyl groups have up to 20 carbon atoms, preferably a methyl or ethyl group and more preferably an ethyl group, R
5
is a divalent hydrocarbon group which may be interrupted by on
De Buyl Francios
Lecomte Jean-Paul
Dawson Robert
Dow Corning S.A.
Robertson Jeffrey B.
Scaduto Patricia M.
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