Aqueous dispersions of fluoropolymers

Details Aqueous dispersions of fluoropolymers Aqueous dispersions of fluoropolymers

2002-01-17

2004-02-24

Wu, David W. (Department: 1713)

Synthetic resins or natural rubbers -- part of the class 520 ser

Synthetic resins

At least one aryl ring which is part of a fused or bridged...

C524S378000, C524S220000, C526S242000, C526S250000, C526S252000, C428S421000, C260S001000

Reexamination Certificate

active

06696512

ABSTRACT:

The present invention relates to aqueous dispersions of fluoropolymers usable for coating of metal and ceramic surfaces and in the impregnation of textiles, glass, carbon or aramid fibers.
Specifically, the present invention relates to aqueous dispersions of fluoropolymers having an improved stability to segregation, and a lower viscosity variation with the temperature, wherefore they are particularly suitable in the impregnation of textiles and in the obtainment on metal substrata of coatings having improved properties without colouring problems.
It is known that from the polymerization in emulsion aqueous dispersions of fluoropolymers having a dry polymer content generally not higher than 30-35% by weight are obtained. In polymerization a fluorinated ionic stabilizer is generally used, so as to avoid the polymer particle coagulation. To obtain dispersions having colloidal stability, it is necessary that the dry polymer amount is not higher than 30-35% by weight.
However, for coating of various types of substratum such as for example metals, ceramics, or for the impregnation of glass, carbon or aramid fibers, the use of dispersions of fluoropolymers having a higher dry polymer content is advantageous, in particular a dry polymer content equal to 60% by weight. Said dispersions having a high polymer content show the best application characteristics, i.e. a good balance between the deposit of a sufficient amount of material on the substratum, a lower amount of water to be evaporated during the drying phase, and a suitable viscosity of the dispersion in connection with the application technique and the manufactured article to be coated.
Therefore, the dispersions obtained from the polymerization are subjected to a concentration step in which they are stabilized by using suitable surfactants, generally non ionic. The use of said surfactants allows to prepare dispersions having a dry polymer content up to 70% by weight. For the dispersion concentration, various processes are known which comprise evaporation under vacuum (U.S. Pat. No. 3,316,201), electrodecantation (GB-A 642,025), ultrafiltration (U.S. Pat. No. 4,369,266). Alternatively, the reversible flocculation of the dispersion containing the non ionic surfactant is induced by heating over the cloud point temperature of the surfactant (U.S. Pat. No. 3,037,953).
The concentrated dispersion must have very good stability characteristics to segregation to avoid drawbacks during the various working steps (transport, storage, formulation, application) and to allow a sufficiently long shelf-life of the compound. It is known indeed that, due to the difference of density betwen fluoropolymers (density about 2 g/ml) and water (density 1 g/ml), segregation phenomena can easily occur and give rise to the formation of not redispersible aggregates (caking). This impairs the possibility to use concentrated dispersions. Besides, concentrated dispersion must have good wettability properties of the surfaces to be coated and a small variation of viscosity in the application temperature range, so as to allow a careful control of the coating process. In this way during the application of subsequent layers of fluoropolymer, defect formation problems like coagulum, cissing are avoided, which represent the main application limits of these dispersions, especially as regards high productivity application techniques such as impregnation, casting.
A method for stabilizing concentrated dispersions of fluoropolymers consists in the use of non ionic surfactants of the class of alkylphenols or polyethoxylated alcohols. For example U.S. Pat. No. 3,301,807 describes the concentration and stabilization of PTFE dispersions, by the use of surfactants of the class of polyethoxylated alkylphenols. The use of these stabilizers shows various drawbacks related first of all to the decomposition of the surfactant during the fluoropolymer sintering phase. The residues of the surfactant decomposition are indeed responsible of the colouring of the manufactured articles treated with the above concentrated PTFE dispersions. Besides, by using poly-ethoxylated alkylphenols as stabilizers, during the application of the dispersion, it may happen the formation of smokes containing harmful volatile substances.
In U.S. Pat. No. 5,985,966 an aqueous dispersion of fluoropolymers stabilized with a phenolic surfactant is described, whose hydrophilic part, besides the polyoxyethylene chain, contains an ionic group —SO
3
M (M═Na, K or NH
4
). The so stabilized dispersion shows good shear stability which make it suitable to the use for the surface coating, also by multilayer deposition. However the dispersions described in this patent do not allow to obtain the required colour and transparency characteristics of the deposited film. In fact, the surfactant decomposition during the fluoropolymer sintering is responsible of the colouring of the coated manufactured articles.
In U.S. Pat. No. 5,219,910 the use of oxidized alkylamines as stabilizers for obtaining concentrated dispersions of fluoropolymers is reported, able to generate films of fluorinated material having improved colour properties and a lower content of organic residues after sintering. However, the concentrated dispersions containing oxidized alkylamines are characterized by an excessive formation of foam, which implies during the deposition process the formation of a dishomogeneous layer with presence of holes. Therefore with these dispersions, satisfactory quality coatings from the industrial point of view are not obtained.
EP 818,506 describes the use of ethoxylated alcohols as stabilizers of fluoropolymer dispersions. Said stabilizers contain from 65% to 70% by weight of ethylene oxide and have a cloud point in the range 45° C.-85° C. The colour and transparence properties of the obtained film result good. However, tests carried out by the Applicant (see the comparative Examples), have shown that the use of said stabilizers implies the obtainment of concentrated fluoropolymer dispersions having a limited stability to segregation and a meaningfully variation of viscosity with the temperature. High variations of the viscosity with the temperature give inconveniences during the dispersion deposition in the application step, since it is very difficult to obtain coatings having an homogeneous thickness. Besides a limited stability to segregation leads to obtain dispersions which cannot be stored for long time.
The need was therefore felt to have available aqueous concentrated dispersions of fluoropolymers able to overcome the above drawbacks of known dispersions of the prior art and having the following combination of properties:
an improved stability to segregation, in particular a remarkably more reduced segregation rate with respect to the known prior art dispersions;
a limited variation of the viscosity with the temperature, which means a better control of the dispersion deposition process for obtaining coatings having a homogeneous thickness;
high white and transparence index of the deposited film.
An object of the present invention are therefore aqueous dispersions of fluoropolymers containing as stabilizer from 1 to 30% by weight, preferably from 2.5 to 7% by weight with respect to the fluoropolymer, of a non ionic surfactant having the following structure:
CH
3
(CH
2
)
n
O(C
3
H
6
O)
p
(CH
2
CH
2
O)
m
H   (I)
wherein n, m, p are integers, and
n is in the range 8-20, preferably 12-15;
m is in the range 5-20, preferably 7-12;
is in the range 1-8, preferably it is 1 or 2.
The aqueous dispersions of fluoropolymers of the present invention have a concentration of dry polymer in the range 10%-75% by weight, preferably 50-70% by weight, under the form of colloidal fluoropolymer particles; the average diameter of the fluoropolymer particles being in the range 5-300 nm.
The lower concentration limit of the stabilizer is represented by 1% by weight based on the polymer. It has been found by the Applicant that for concentrations under said limit, the dispersion results to be not very stable mechanically. At conce

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