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Ink jet ink

a technology of inkjet ink and inkjet printing, which is applied in the direction of dyeing process, instruments, thermography, etc., can solve the problems of inability to produce inability to provide a means of producing stable useful white ink, and inability to disperse pigments that can be “well dispersed” for other applications, etc., to achieve easy re-dispersion and rejuvenation, simple shaking

Inactive Publication Date: 2005-09-29
EI DU PONT DE NEMOURS & CO
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The present invention provides a non-aqueous inkjet ink that includes a titanium dioxide pigment and a dispersant for the pigment in a non-aqueous liquid carrier. The non-aqueous liquid carrier has a high hydrogen bonding solubility parameter and is predominantly made of non-reactive organic solvents. The ink has low conductivity and can be used in inkjet printers. The invention also provides an ink set comprising multiple colored inks, including a white ink. The inkjet ink and ink set can be used on a variety of substrates, including non-white paper. The invention also provides a method for inkjet printing onto a substrate using the ink and ink set. The technical effects of the invention include reduced settling of titanium dioxide particles, soft settling of titanium dioxide pigment, and the ability to print on a wide range of substrates.

Problems solved by technology

Generally, pigments that can be dispersed well in water do not disperse well in non-aqueous solvent, and vice versa.
Thus, pigments that may be “well dispersed” for other applications are often still inadequately dispersed for inkjet applications.
U.S. Pat. No. 4,630,076 describes a color ink jet system with an additional white ink that is printed on top of the previously printed color dots, but does not provide a means to produce a stable useful white ink.
Current white ink formulations are not acceptable for numerous applications, such as commercial drop-on-demand inkjet applications, primarily because of poor stability resulting in pigment settling and agglomeration.
Poor stability may result in “nozzle outs” or plugging of the ink jet nozzles.
Poor stability also results in poor hiding, non-uniform coverage and poor clarity in the printed surface.
White ink formulations based on inorganic white pigments, such as titanium dioxide (TiO2), may fail because of poor stabilization of the TiO2 pigment.
Pigment agglomeration and flocculation are often at fault in poor performance of white inks, particularly white inkjet inks, due to settling and nozzle plugging problems.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

##ry examples 2 and 3

Comparative Slurry Examples 2 and 3

[0203] Comparative Slurry examples 2 and 3 were made in a manner similar to Comparative Slurry Example 1. Table 4 lists the compositions for the slurries

TABLE 4Comparative Slurry Examples 2 and 3Comparative Slurry EX23Di Water83.49182.8DMEA 50%1.001.0Dispersants 1 / 2B, 50% / 50%28.80Dispersants 1 / 2C, 50% / 50%44.2Ethylene Glycol50.0050.0Dehydran ® 16202.002.0PnP103.51Dispersant 320.00Ti-Pure R700720.00720.0Total1008.801000.0

##ry example 1

Slurry Example 1

[0205] Slurry Example 1 was prepared in a 100-gram batch by charging the ingredients listed in Table 8 into a plastic jar (250 ml capacity) and following these steps:

[0206] (1) In a 250 ml plastic bottle, the solvents (s) as well as the dispersants were added.

[0207] (2) The mixture was mixed until the dispersants dissolved completely in the solvents.

[0208] (3) The white pigment was added slowly to the container

[0209] (4) The contents were mixed well, then the zirconium media (0.8-1.0 mil zirconium media) was added.

[0210] (5) The plastic container was then added to a roller mill, the speed of which was adjusted to 35 rpm.

TABLE 6Slurry Example 1, CompositionSlurry Ex 1Disperbyk ® 20008.71Dispersant 1 / 2B (50 / 50 wt %)5.17PnP361.12Ti-Pure R700250.00Total625.00

example 1

Ink Example 1

[0211] Ink Example 1 was prepared using Slurry Ex 1 according to the following composition.

TABLE 7Ink Ex 1Ink Example 1Slurry Example 160.00DPnP40.00BYK 3480.50Total100.50% Pigment (Solid)24.00Viscosity (Cps)6.79Surface Tension (Dyne / Cm)27.02

[0212] This ink was printed on polyvinyl butyral and the optical properties are reported in Table 8

TABLE 8Ink Example 1, White Ink Printed Decorative LaminatesNumber ofprintingGlass% Trans-passestypemission% Haze% Clarity1Clear39.492.252.42Clear29.897.040.83Clear24.796.246.94Clear20.995.152.35Clear19.289.266.51Starphire37.491.450.92Starphire27.796.939.43Starphire22.995.845.04Starphire19.485.348.45Starphire17.385.869.8

The “Clear glass” is normal glass made by the float process, and it had a slightly green tint. The Starphire glass was the PPG “ultra-white” glass.

Test for Whiteness and Yellowness of White Ink Printed Substrates

[0213] The polyvinyl butyral decorative laminate used with Ink Example 1 was tested for whiteness as m...

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PUM

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Abstract

Disclosed is a non-aqueous inkjet ink containing certain titanium dioxide slurries, an associated inkjet ink set for inkjet printing, and a method of inkjet printing with the inkjet ink or ink set. The solvent and mixtures of solvents used for the dispersed titanium dioxide have a hydrogen bonding solubility parameter of greater than about 9. The inks have improved anti-settling properties with less pigment agglomeration and flocculation over time such that they can be utilized to prepare a stable inkjet ink. Also described is the use of this ink to print on colored or transparent surfaces.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS [0001] This application claims priority under 35 U.S.C. §119 from U.S. Provisional Application Ser. No. 60 / 549,607 (filed Mar. 2, 2004), the disclosure of which is incorporated by reference herein for all purposes as if fully set forth.BACKGROUND OF THE INVENTION [0002] 1. Field of the Invention [0003] This present invention pertains to a non-aqueous inkjet ink made from titanium dioxide and an associated inkjet ink set for inkjet printing. The invention also pertains to a method of inkjet printing with the ink and ink set. The inks utilized herein have improved anti-settling performance with less pigment agglomeration and flocculation over time such that they can be utilized as a stable inkjet ink. The white ink based on the titanium dioxide provides new means to digitally print white ink by itself, but also with other colors. [0004] 2. Description of the Related Art [0005] Inkjet printing is a non-impact printing process in which droplets of...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): B32B17/10B41J2/01B41M5/40C03C17/00C03C27/10C09D11/00C09D11/02D06P5/30
CPCB32B17/10247B32B17/10339B32B17/10688B32B17/10761B41M5/0047D06P5/30B41M7/0027C03C27/10C09D11/36C09D11/40B41M5/0064
Inventor ELWAKIL, HAMDY A.MCINTYRE, PATRICK F.
Owner EI DU PONT DE NEMOURS & CO
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