CROSS REFERENCE TO PROVISONAL APPLICATION
BACKGROUND OF THE INVENTION
[0002] The present invention relates to paper machine fabrics. Paper machine fabrics are
conventionally used in the manufacture of paper towels, facial tissue, bathroom tissue,
table napkins and the like.
[0003] U.S. Pat. Nos. 6,017,417 and
6,331,230 and Publication
WO 01/44568 describe the manufacture of tissue and the like using through-air drying. Typically,
in such processes, a slurry of cellulosic fibers is fed onto a forming fabric or between
two forming fabrics, where the paper web is formed and partially dewatered before
the web is transferred, often via a transfer fabric, to a through-air drying (TAD)
fabric for further water removal by way of one or multiple TAD units. The web is then
fed by way of the TAD fabric to a presser roll where a nip is formed between the TAD
fabric and a Yankee cylinder. Here the paper web transfers to the Yankee cylinder
where further drying and creping takes place. In one variation of this process, the
Yankee cylinder is removed, thus eliminating the pressing nip. In this case, the web
is transferred from the TAD fabric to a further fabric.
[0004] It is conventional to spray a chemical release agent, e.g. silicone oil onto the
paper machine fabrics in order to provide good sheet release, whether it be to aid
the transfer of the sheet on to another fabric or on to the Yankee cylinder, after
exiting the presser roll nip. There are a number of potential problems associated
with using a chemical release agent in the TAD process, two of these being that they
are messy to utilize and very expensive.
[0005] A significant problem with the use of a chemical release agent is the fact that the
agent remains in the recycled white water system. Most modern paper machines tend
to have closed water systems, and so the water that is removed from the cellulosic
stock during the papermaking process and the reclaimed fabric shower water is collected,
recycled and then reused as shower water and also to dilute the new cellulosic stock.
In the interim period, the water is stored in holding tanks. In these tanks, minute
beads of chemical release agent coalesce into larger globules. It is extremely difficult
to separate the chemical release agent from the water and the globules end up coating
these tanks, which finally make their way back into the system. When the globules
find their way into the cellulosic stock, there are potentially a number of problems,
all of which result in a reduction of paper quality and machine operating efficiency.
[0006] Another approach to improve release is to coat the fabric, and typical coatings include
thermoset polyurethane (TPU), hydrophobic materials and the like.
[0007] It is clear that the need remains for an environmentally friendly system which can
be applied to paper making machine fabric and other belts or rolls to improve release
behavior without adversely impacting other performance attributes.
SUMMARY OF THE INVENTION
[0008] According to the invention, the foregoing need has been met.
[0009] According to the invention, a paper machine fabric is provided which comprises a
fabric having a roll side and a paper side and a surface matrix on the paper side;
and a chrome complex treatment on the surface matrix. The chrome complex treatment
serves to enhance release properties of the fabric without requiring sanding of the
fabric and without using materials which interfere with the complex paper system and/or
the paper making machine itself. Further, the treatment is applied in a water based
system, and chemically reacts with the surface of the fabric.
[0010] According to the invention, the chrome complex treatment can preferably be an organic
metal complex, preferably a fatty acid metal complex.
BRIEF DESCRIPTION OF THE DRAWINGS
[0011] A detailed description of preferred embodiments of the present invention follows,
with reference to the attached drawings, wherein:
[0012] Figure 1 schematically illustrates a fabric having a coating according to the invention.
DETAILED DESCRIPTION
[0013] The invention relates to fabric for papermaking machines and, more particularly,
to a treatment for such fabric which improves the release properties of the fabric.
[0014] The treatment according to the invention is applied to the paper side of a fabric,
preferably a fabric 10 having a base 12 and batt layers 14, 16 attached at each side
of base 12. A surface matrix 18 can be attached to or otherwise defined on a surface
of batt layer 14, and the treatment 20 according to the invention is preferably applied
at least to surface matrix 18.
[0015] According to the invention, the surface treatment comprises a water based system
containing a chrome complex. One example of particularly suitable chrome complexes
is a family of products marketed by Dupont under the trademark Quillon®, certain examples
of which include chromium pentahydroxy(tetradecanoato)di-; tetradecanoato chromic
chloride hydroxide; octadecanoato chromic chloride hydroxide and others.
[0016] The treatment composition can be applied in relatively low concentrations, for example
at concentrations of less than 10% volume, preferably at concentrations of less than
2% volume. The composition can be applied using known techniques such as spray or
kiss roll application. After application to the fabric, the composition is preferably
dried and cured, preferably at a temperature of about 100°C plus or minus about 50°C.
This leads to chemical reaction of the composition with the fabric which leads to
desirable release properties of the fabric. It is believed that the composition reacts
with the polar groups of the fabric, and when cured the complex forms an insoluble
layer of a polymerized chromium network chemically bonded to the substrate. Hydrophobic
fatty acid chains of the composition are left oriented away from the surface of the
substrate, giving rise to a unique and unexpected release property.
[0017] The treatment according to the present invention can advantageously be applied to
various papermaking machine clothing or fabric and other industrial fabrics, for example
including forming fabrics, press fabrics, impermeable press belts, dryer fabrics,
TAD and other industrial fabrics, and can be applied to rolls and sleeves.
[0018] The composition of the present invention can also be engineered with other aqueous
polymer systems such as poly vinyl alcohol (PVA) or poly vinyl acetate (PVAc) to provide
control over surface energy, wetting behavior and the like.
[0019] A particular advantage of the present invention is that the fabric does not need
to be sanded or ground or otherwise treated in a potentially harmful way in order
to apply the composition.
[0020] The water based system which is preferably used to apply the composition is environmentally
friendly, and does not contaminate the white water of the process or the wet cellulosic
material.
EXAMPLE
[0021] An impermeable press belt having a 1.0 mm thick surface matrix consisting of TPU
and embedded nylon fibers is treated using Quilon S and/or Quilon L solution. The
solution is applied by spray and/or kiss roll application at concentrations of 0-10%
by volume, and then dried and cured at 100°C. Following this treatment, the treated
fabrics were tested and surface energy dropped by approximately 20% as compared to
the normal TPU. Thus, the treated fabric has a marked improvement in release properties.
[0022] It is to be understood that the invention is not limited to the illustrations described
and shown herein, which are deemed to be merely illustrative of the best modes of
carrying out the invention, and which are susceptible of modification of form, size,
arrangement of parts and details of operation. The invention rather is intended to
encompass all such modifications which are within its spirit and scope as defined
by the claims.
1. A paper machine fabric, comprising:
a fabric having a roll side and a paper side and a surface matrix on the paper side;
and
a chrome complex treatment in the surface matrix.
2. The fabric of claim 1, wherein the fabric comprises a fabric base, a roll side batt
layer on the roll side of the fabric base, and a paper side batt layer on the paper
side of the fabric base, wherein the surface matrix is attached to the paper side
batt layer.
3. The fabric of claim 1, wherein the chrome complex treatment is chemically bonded with
the surface matrix.
4. The fabric of claim 1, wherein the chrome complex comprises a polymerized chromium
network chemically bonded with the surface matrix.
5. The fabric of claim 1, wherein the fabric is at least one of a forming fabric, a press
fabric, a dryer fabric, an impermeable press belt and a through-air dryer fabric.
6. A method for providing release properties to a papermaking machine fabric, comprising
the steps of:
applying a solution of chemically reactive chrome complex to a surface of a papermaking
machine fabric; and
drying and curing the fabric so that the complex reacts with the surface and produces
a polymerized chromium network chemically bonded to the fabric.
7. The method of claim 6, wherein the drying and curing step orients hydrophobic fatty
chains from the complex so that the chains are oriented away from the fabric.