Conformable poly(dimethylsiloxne) coating as intermediate...

Stock material or miscellaneous articles – Composite – Of silicon containing

Reexamination Certificate

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C428S036900, C428S036910, C428S448000, C430S090000, C430S126200, C492S053000, C492S056000

Reexamination Certificate

active

06203917

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates generally to the field of fuser members useful in electrophotographic copying and in particular to an intermediate layer for a fusing member which provides high image quality and processability.
BACKGROUND OF THE INVENTION
A widely used method for affixing toner materials to a receiver sheet is by the application of high temperature and pressure in the fusing subsystem of a photocopying machine. A common configuration for a fusing subsystem is to place a pair of cylindrical rollers in contact. The roller that contacts the side of the receiver sheet carrying the unfixed or unfused toner is known as the fuser roller. The other roller is known as the pressure roller. The area of contact is known as the nip.
A toner receiver sheet containing the unfixed or unfused toner is passed through the nip. A soft coating on one or both of the rollers allows the nip to increase in size relative to the nip which would have been formed between two hard rollers and allows the nip to conform to the receiver sheet, improving the fusing quality. Typically, one or both of the rollers are heated, either through application of heat from the interior of the roller or through external heating. A load is applied to one or both rollers in order to generate the higher pressures that are necessary for good fixing or fusing of the toner to the receiver sheet.
The application of high temperature and pressure as the receiver sheet passes through the nip causes the toner material to flow to some degree, increasing its contact area with the receiver sheet. If the cohesive strength of the toner and the adhesion of the toner to the receiver sheet is greater than the adhesion strength of the toner to the fuser roller, complete fusing occurs. However, in certain cases, the cohesive strength of the toner or the adhesion strength of the toner to the receiver is less than that of the toner to the fuser roller. When this occurs, some toner will remain on the roller surface after the receiver sheet has passed through the nip, giving rise to a phenomenon known as contamination. Contamination can also occur on the pressure roller.
In order to achieve desired image quality with respect to gloss, the surface properties of the roller are paramount. This is also true of an overcoated roller. The base cushion surface properties can affect the final, outer surface properties of the fuser member and therefore affect image quality.
There are two possible methods of making suitable fuser members. The first is to mold the fuser member or the fuser member base cushion. The advantage of this is that the surface properties of the fuser member or base cushion can be controlled by the quality of the mold surface. The disadvantage of this process is that a molded part will generally have problems associated with resin shrinkage and centering of the roller in the mold. The problems occur when the material is not perfectly centered on the roller. This results in paper handling problems as well as the possibility of an uneven nip. An uneven nip results in nonuniform fusing quality and gloss.
Multilayer rollers have been described to impart properties such as an oil barrier layer as described in U.S. Pat. No. 5,968,704, issued Oct. 19, 1999 and adhesion as in U.S. Pat. No. 5,534,347. Another role for an intermediate layer may be to separate two incompatible materials such as an addition cured from a condensation cured silicone as in U.S. Pat. No. 5,968,704, issued Oct. 19, 1999.
The second method for making a suitable fuser member is to coat an intermediate layer over a ground roller surface. This allows the tight control of the dimensional tolerance. In order to be able to produce a fuser member for a high quality image with desirable image characteristics such as gloss. One criterion is that the intermediate layer must be able to fill in all the pores of the ground surface. Another criterion is that the process should proceed quickly.
One difficulty in obtaining consistent high image quality with ground fuser roller material is that any roughness or variability in the grinding method and wheel, or the occurrence of a high frequency pattern from grinding, becomes apparent in the final image and this is undesirable. Intermediate layers have been mentioned as a method to control surface finish but they have not been described in detail.
There is a need for improved fuser members with improved fusing performance, e.g. increased coating quality to produce improved image characteristics without reducing the toner releasability, fuser member processability, temperature control, or dimensional tolerances.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a fuser member intermediate layer to improve image quality.
In accordance with the present invention there is provided a fuser member having a support metallic core and a layer of material formed over the metallic core which can be ground to yield tight mechanical tolerances, one or more intermediate layers, and an outer layer. One intermediate layer being to affect surface properties, this layer comprising:
(a) a crosslinkable poly(dialkylsiloxane), wherein the poly(dialkylsiloxane) has a weight average molecular weight before crosslinking above 5,000;
(b) one or more multifunctional silanes;
(c) one or more amino functional silane crosslinking agents;
(d) optional fillers.
An advantage of the present invention is that by application of the intermediate layer, the surface properties, primarily roughness, of the outer layer of the fuser member can be improved.
Another advantage is that by improving the surface properties of the fuser member outer layer, the fusing temperature can be reduced while maintaining image quality requirements.
Another advantage of the current invention is that the intermediate layer successfully improves the surface properties of the fuser member outer layer thus allowing the base cushion to be ground to mechanical tolerances without loss of image characteristics.
Another advantage of the present invention is that the surface properties of the outer layer of the fuser member are improved without significantly affecting processing time.
Another advantage of the present invention is that the image characteristics can be improved at a lower temperature resulting in lower contamination.
Another advantage of the present invention is that the image characteristics can be improved at a lower temperature resulting in lower contamination below the advantage observed by molding the fuser member.
Another advantage of the present invention is that the low hardness of the poly(dialkylsiloxane) results in a more conformable coating resulting in reduced contamination.
DETAILED DESCRIPTION OF THE INVENTION
The intermediate layer of the fuser member of the invention includes a crosslinkable poly(dialkylsiloxane). The optional fillers are an oxide or mixture of oxides. Typical oxides include metal oxides such as aluminum oxide, iron oxide, tin oxide, zinc oxide, copper oxide and nickel oxide. Silica (silicon oxide) can also be used. Other fillers may be added for yield other properties. One such filler is a silicone T-resin which can improve solution shelf life. However to realize the full advantages of the present invention the total filler concentration should be limited to 55 wt % of the total weight of the mixture.
Silanol-terminated poly(dialkylsiloxane) polymers and methods of their preparation are well known. They are readily commercially available, e.g., from Huls America, Inc., (United Chemical) 80 Centennial Ave., Piscataway, N.J., U.S.A., and having the repeat unit structure:
For purpose of the present invention 1 is an integer such that the Structure (I) polymer has a weight average molecular weight above 5,000 i.e., 1 is between 60 and 1,300 when R
3
and R
4
are both methyl. R
3
and R
4
are independently alkyl groups such as methyl, ethyl, propyl, butyl, pentyl, or hexyl. If the molecular weight were below 5,000, the final cross-linked poly(dialkylsiloxane) would have a high crosslink density

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