Recording material for the ink-jet recording process

Details Recording material for the ink-jet recording process Recording material for the ink-jet recording process

2000-06-22

2004-04-27

Hess, Bruce H. (Department: 1774)

Stock material or miscellaneous articles

Structurally defined web or sheet

Discontinuous or differential coating, impregnation or bond

C428S474400, C428S500000

Reexamination Certificate

active

06726981

ABSTRACT:

FIELD OF THE INVENTION
The invention relates to a recording material for the ink-jet recording process.
BACKGROUND OF THE INVENTION
The technology for producing color printouts connected with the general spreading of electronic media has gained great importance in recent years. The goal of this technology is the adaptation of the image quality of color printouts to the level of silver salt-based photography.
An important technology is the ink-jet recording process which in recent years has provided an increasingly improved image quality. In the ink-jet method individual ink droplets are brought onto a recording material with the aid of different techniques that have been described repeatedly. High expectations are placed on the recording materials used in these technologies. These include, for example, high-resolution and high color density of the produced image, no color bleeding, short drying times of the ink, light stability as well as dimensional stability. A further important requirement for commercial applications is the surface gloss. This is especially important in the context of producing art prints, but also for producing images requiring a photo-like impression.
From EP 0 650 850 A2 a recording material is known which is comprised of a polyolefin-coated base paper and a receiving layer. The material allows the production of images with high resolution, color density, and high gloss which in their overall impression are comparable to conventional photographic images. A disadvantage of these receiving materials is their bad drying properties.
In JP 10-119424 a recording material having high gloss is suggested which comprises a hydrophobic carrier and two porous silicic acid-containing layers wherein the silicic acid of the upper layer has smaller particles than the silicic acid of the lower layer. A disadvantage of this recording material is the long drying time.
In a few other publications glossy recording materials are claimed in which the receiving layer is pressed in a cast coating process against a heated dead-smooth cylinder surface so that the recording material is provided with a high gloss surface.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a high gloss recording material for ink-jet recording processes with which images of high color density and minimal mottle can be produced and which has a good wiping fastness.
This object is solved with a recording material that comprises a support material and at least one polymer layer. The polymer layer can be arranged directly on the support and can be applied by extrusion. The polymer layer comprises a polyether group-containing thermoplastic copolymer.
The inventive recording materials are characterized by high gloss, which can be increased even more by treatment with a calender or with a cooling roller. They exhibit high wiping fastness while providing excellent color density and excellent mottle values. The recording material according to the invention has an improved ink absorbing capability in comparison to the polyolefin layers of known ink-jet recording materials.
The polymer layer can also be a mixture of the polyether group-containing copolymer and other polymers. The proportion of the other polymers in the mixture with the copolymers to be employed according to the invention can be approximately 1 to 50 wt. %, preferably up to 40 wt. %, based on the mass of the mixture.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
In a special embodiment of the invention, the polymer layer comprises a polyether amide block copolymer, wherein a block polymer with a number of polyether groups of 2 to 20 in each of the repeating copolymer segments provides especially good results.
Polyether amide block copolymers suitable according to the invention are, for example, those of the general formula
wherein PA is a polyamide segment and PE is a polyether segment. The individual segments can be connected to one another by carboxyl groups. A polyether segment can have 2 to 30, preferably 5 to 20 functional ether groups.
In a further preferred embodiment of the invention, the polyether group-containing copolymer is a polyether ester copolymer.
Suitable as further polymers in a mixture with the copolymer to be used according to the invention are thermoplastic polymers such as polyolefins, ethylene copolymers, polyesters, polycarbonates, polyurethanes, and/or extruded polyvinyl alcohol homopolymers or polyvinyl alcohol copolymers.
Further additives, such as white pigments, color pigments, fillers, especially absorptive fillers and pigments such as aluminum oxide, aluminum hydroxide and/or silicic acid, as well as color fixation agents, dispersing agents, softeners and optical brighteners can be contained in the polymer layer. Titanium dioxide can be used as a white pigment. Further fillers and pigments are calcium carbonate, magnesium carbonate, clay, zinc oxide, aluminum silicate, magnesium silicate, ultramarine, cobalt blue, and carbon black or mixtures of these materials. The fillers and/or pigments are used in quantities of 1 to 40 wt. %, especially 5 to 20 wt. %. The quantities given are based on the mass of the polymer layer.
The applied weight of the extruded polymer layer can be 5 to 50 g/m
2
, preferably 10 to 30 g/m
2
. The polymer layer can be applied onto the front side of the support material in the form of a single layer according to an extrusion method known to a person skilled in the art or in the form of multiple layers by means of a co-extrusion method. However, it can also be applied to the backside of the support material.
Preferably, a zone temperature of 160 to 340° C., especially 180 to 320° C., is adjusted within the extruder. It was found to be especially advantageous, in particular, when using one inch extruders, to mix the employed resins and further additives at a rotational speed of the worm gear of 70 to 150 rpm and to extrude the resulting mixtures. When other extruders are used, the rotational speed of the worm gear should be preferably adjusted such that the viscosity of the mass to be extruded corresponds to that in a one inch worm gear extruder at a rotational speed of more than 70 rpm and a temperature of 160 to 320° C.
In order to achieve gloss values as high as possible, it is advantageous to use a high gloss cooling roller in the extrusion process.
In principal, any raw paper can be used as support material. Preferably, surface sized, calendered or non-calendered or heavily sized raw paper products are used. The paper can be sized to be acidic or neutral. The raw paper should have a high dimensional stability and should be able to absorb the liquid contained in the ink without curl formation. Paper products with high dimensional stability of cellulose mixtures of coniferous cellulose and eucalyptus cellulose are especially suitable. Reference is made in this context to the disclosure of DE 196 02 793 B1 which describes a raw paper as an ink-jet recording material. The raw paper can have further additives conventionally used in the paper industry and additives such as dyes, optical brighteners or defoaming agents. Also, the use of waste cellulose and recycled paper is possible. However, it is also possible to use paper coated on one side or both sides with polyolefins, especially with polyethylene, as a support material.
In a further embodiment of the invention the recording material can have an additional layer. This additional layer can have the function of an ink absorbing layer. This layer can be applied as an aqueous dispersion or solution. The additional layer can be applied in the form of a single layer or multiple layers. It can contain hydrophilic or water-soluble binders, dye-fixation agents, dyes, optical brighteners, curing agents as well as inorganic and/or organic pigments.
Polymers can be used as binders such as, for example, polyvinyl alcohol and its modifications, starch and starch derivatives, gelatin, casein, cellulose derivatives, styrene/butadiene latex, vinyl copolymers, polyvinyl pyrrolidone and acrylic esters.
In order not to impair the

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