Stearic acid-containing ink jet inks

Abstract

A stearic acid-containing ink jet ink for use in an ink jet apparatus which features good print quality. The ink jet ink is discharged from the ink jet ink apparatus at elevated temperatures above ambient.

Description

FIELD OF THE INVENTION

This invention relates to improved ink jet inks, and more particularly to ink jet inks that contain stearic acid.

BACKGROUND OF THE INVENTION

Ink jet inks many times provide marginal print quality. This is so, because water-based ink jet inks generally have poor penetration and drying characteristics with respect to the paper.

On the other hand, oil-based inks have low surface tension and usually provide ink dots which are too large to give good print quality.

The present invention seeks to formulate ink jet inks which can provide small, circular dots on many paper media. These small circular dots will produce characters having good edge definition, and contrast, and hence, characters of good print quality.

The present invention proposes to use stearic acid as a major base component of ink jet inks. The stearic acid of this invention may be considered a synthetic wax or a natural wax.

Commercial stearic acid is not a chemically pure compound, but a mixture of fatty acids in which stearic acid predominates.

Stearic acids are chiefly produced from saponified and distilled animal fatty acids. These fatty acids are usually composed of approximately 60% liquid and 40% solid acid. The bulk of the liquid acids is separated from the solid acids by hydraulic pressing. From the first pressing single-pressed stearic acid is obtained, from the second pressing, double-pressed stearic acids, and from the third pressing, triple pressed stearic acids. Each successive pressing removes additional liquid fatty acids, thus increasing the purity and quality of the resulting solid stearic acid. The liquid acids present are unsaturated and the solid acids, saturated.

Wax-containing ink jet inks are usually solids or semi-solids at ambient temperature, and therefore, require to be discharged from an ink jet apparatus at elevated temperatures. The heated ink fluid will solidify when it comes in contact with its paper target. The rate of solidification of the wax-containing ink will control the degree of penetration into the paper, usually a small circular dot will result. As a general rule, inks containing wax as a major component thereof, will have less penetration into the paper than inks containing additive amounts of wax.

A definition of "waxes" can be found in Industrial Waxes by H. Bennett; Volumes 1 and 2; Chemical Publishing Company, Inc., New York, NY (1975). Bennett defines a wax as "an unctuous solid with varying degrees of gloss, slipperiness and plasticity, which melts readily".

Natural waxes may be of vegetable, animal, or mineral origin. Modified waxes are natural waxes that have been treated chemically to change their nature and properties. Synthetic waxes are made by the reaction or polymerization of chemicals. Compounded waxes are mixtures of various waxes or of waxes with resins or other compounds added thereto.

There is considerable misunderstanding as to the nature and classification of fats, waxes, gums, and resins. For example cocoa butter, although it is actually a fat, is commonly considered as a wax because of certain characteristic properties. On the other hand, wool wax, derived from lanolin, is technically a wax but, because of its properties, it is usually considered as a fat. Kauri gum is commonly called a wax; and so on.

DISCUSSION OF RELATED ART

A hot melt ink for use in an ink jet apparatus is taught in U.S. Pat. Nos. 3,653,932 and 3,715,219, respectively.

The major component of the hot melt ink is a didodecyl-sebacate which is a highly viscous, synthetic substance.

As compared with the present invention, the didodecyl-sebacate is a synthetic substance which is disclosed as having a viscosity within a range having an upward limit of 50 centipoises and a resistivity within the range of 10.sup.6 to 10.sup.11 ohm-centimeters.

In a Japanese Abstract, Rico J56166-274, the use of stearic acid in an oil-in-water emulsion ink fluid is suggested. This aqueous ink uses only small amounts of fatty acids in its formulations, and is not meant to operate as a hot melt (wax) ink.

BRIEF SUMMARY OF THE INVENTION

The invention pertains to a non-aqueous ink jet ink composition comprising stearic acid in an approximate weight range of from 50 to 99 percent. The wax-containing composition is discharged from an ink jet apparatus at an elevated temperature above ambient. The stearic acid ink of this invention may be defined either as a "synthetic or a natural wax".

The ink composition can contain oleic acid in combination with the stearic acid. The stearic acid may be the basic fluid vehicle of the ink or may be used as an additive to other fluidic vehicles such as fatty acids, and more particularly oleic acid, and oleic acid with benzyl ether, etc.

Within the definition of the stearic acid wax of this invention are also included compounded or chemically modified waxes which may include natural or other synthetic substances.

A coloring agent or dye such as an oil or solvent soluble dye is usually added to the composition for visibility.

It is an object of this invention to provide improved ink formulations for use in ink jet apparatuses;

It is another object of the invention to provide a stearic acid wax-containing non-aqueous ink for an ink jet, which ink can give a small dot of good circularity;

It is a further object of this invention to provide a wax-containing ink for use in an ink jet, particularly an impulse ink jet, which ink will provide dots of good print quality.

These and other objects of this invention will become more apparent and will be better understood with respect to the following detailed description.

DETAILED DESCRIPTION OF THE INVENTION

Generally speaking, the invention is for an ink composition containing stearic acid, which composition is to be discharged from an ink jet apparatus at elevated temperatures above ambient.

Inks of this type have been found to provide highly repetitive dots of small size and extremely good print quality. Print quality is generally a measure of the circularity of the dot. The present inventive synthetic, natural and synthetic-natural waxes (compound waxes) provide circularities of 0.7 or better as measured by the technique described in U.S. application Ser. No. 248,551; filed Mar. 27, 1981; now Pat. No. 4,361,843; which technique is meant to be incorporated herein by way of reference.

The ink formulations of this invention find particular applicability in impulse ink jet apparatuses, but not limited thereto.

Stearic acid as an ink jet vehicle has the advantage of good dye solubility, viscosity vs. temperature relationship and good compatibility to a wide range of vehicles. The stearic acid also has a functional group, COOH, which has good affinity to paper. Thus, it will prevent the ink flaking off from the paper.

The stearic acid can be used in a hot melt ink. Because the ink changes from liquid to solid when it hits the paper, the ink/paper interaction has been minimized. The dots are very consistent so that it gives good print quality on almost any kind of paper.

Specific ink formulations which have been found to provide this good ink dot circularity are presented in Table I below:

TABLE I__________________________________________________________________________Stearic Acid 85 97 60 60 65 75Oleic Acid -- -- 20 20 -- --Typophor Black 15 -- 20 40 15 --Calco Nigrosine Base -- 3 -- -- -- 5Vis. Solid/Room Temp. 11.4 1.4 10.5 10.1 -- -- (75.degree. C.) (70.degree. C.) (75.degree. C.) (75.degree. C.)Wax #2** -- -- -- -- -- 20Wax #3** -- -- -- -- -- 20Vis. -- -- -- 65.degree. C. 18.4 9.0 -- -- -- 75.degree. C. 13.4 7.7 (70.degree. C.) -- -- -- 85.degree. C. 10.2Dot Size* 4 mil/ 4 mil/ 2 mil 2 mil orifice orifice 6 mil/ 3 mil orifice__________________________________________________________________________ *The dot size data is generally independent of target substrate materials (paper) but will vary to a slight degree with different ink jet apparatuses. **The waxes designated No. 2 and No. 3 are the product of Strahl & Pitsch Inc. 230 Great East Neck Road, West Babylon, N.Y. 11704.

The above ink formulations provide dots which produce characters approaching typewriter quality printing. As such, the above formulations are believed to provide inks which result in the finest print quality in the ink jet art.

Other natural waxes such as Japan wax, candelilla wax and/or caruauba wax can be blended with stearic acid to produce an acceptable ink for an ink jet apparatus.

The above formulations are, however, meant to be only exemplary, and are meant to provide a general teaching and understanding of the invention.

What is meant to be protected by way of Letters Patent is presented by the following appended claims.

Claims

1. A method of impulse ink jet printing comprising the step of jetting a non-aqueous ink jet ink composition, said ink being selected to contain at least stearic acid in an approximate weight percentage range from 50.0 to 99.0, said composition being discharged from an ink jet apparatus as a liquid at an elevated temperature above ambient.

2. The impulse ink jet printing method of claim 1, when said ink is selected to comprise oleic acid.

3. The impulse ink jet printing method of claim 1, wherein said ink is selected to comprise a mixture of waxes.

4. The impulse ink jet printing method of claim 1, wherein said ink is selected to comprise a natural wax in combination with said stearic acid.

5. The impulse ink jet printing method of claim 1, wherein said ink is selected to comprise a chemically modified or compounded wax.

6. The impulse ink jet printing method of claim 4, wherein said natural wax is selected from a group of waxes consisting of: Japan wax, candelilla wax, and carnauba wax.

7. The impulse ink jet printing method of claim 1, wherein said ink is selected to comprise at least one dye or coloring agent.

8. A method of impulse ink jet printing comprising the jetting of a non-aqueous ink jet ink composition comprising stearic acid as a major component thereof, said composition being discharged from an ink jet apparatus as a liquid at an elevated temperature above ambient to form, when permitted to solidify, dot sizes having an average circularity of at least 0.7.

9. A method of impulse ink jet printing comprising the jetting of an ink jet ink composition comprising stearic acid as a major component thereof, said composition having a maximum viscosity of 35 centipoises at a temperature in an approximate range of 40.degree. C. to 90.degree. C.