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Methods of treating and cleaning fibers, carpet yarns and carpets

a technology of carpet yarn and fiber, applied in the field of carpet yarn and carpet, can solve the problems of protective materials on the fiber that can produce discoloration, materials may be accidentally spilled onto the carpet, etc., and achieve the desired degree of discoloration resistance and stain resistance. , the effect of improving the stain resistan

Inactive Publication Date: 2005-01-27
COLUMBIA INSURANCE CO
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0007] The coated carpet yarn is desirably heated to fix one or more components, such as tannic acid, a stain blocker, and / or a crosslinking agent, onto the fiber, yarn or carpet, and then rinsed with water and dried to produce a stain-resistant carpet yarn, which may be cleaned using a variety of high pH cleaning solutions without negatively impacting the color and / or shade of the carpet yarn.
[0008] The present invention is further directed to aqueous treating compositions for treating fibers, carpet yarns and carpets to enhance the repellency and stain-resistance of the fibers, carpet yarns and carpets. In one exemplary embodiment of the present invention, the aqueous treating composition comprises at least one crosslinking agent and one or more additional components selected from tannic acid; at least one pH adjuster, such as an acid; at least one additional stain-resist compound; at least one fluorochemical compound; at least one dye; one or more dyebath components; and mixtures thereof. In a further exemplary embodiment, the aqueous treating composition comprises tannic acid and at least one crosslinking agent, and optionally further comprises one or more components selected from at least one pH adjuster, such as an acid; at least one additional stain-resist compound; at least one fluorochemical compound; at least one dye; one or more dyebath components; and mixtures thereof.
[0009] The present invention is even further directed to treated fibers, carpet yarns and carpets having enhanced stain-resistance and resistance to discoloration upon contact with high pH cleaning solutions. The treated fibers, carpet yarns and carpets of the present invention have a desired degree of resistance to discoloration when exposed to a variety of staining materials, such as a caustic solution, an ammonia solution, an acid red dye-containing solution, and a mustard-containing solution.

Problems solved by technology

A number of treatments have been developed that provide enhanced repellency and stain resistance to nylon carpet yarns; however, the stain and soil resistant treatments can be removed from the fiber by high pH cleaning solutions, and in certain cases, the protective materials on the fiber can produce discoloration when high pH cleaning solutions (i.e., cleaning solutions having a pH of greater than about 7.5) are applied to the treated yarns.
High pH cleaning solutions, such as dilute caustic soda solutions or ammonia-containing solutions, are not normally suggested for use in direct general cleaning of carpets, but these materials may be accidentally spilled onto the carpet when associated areas, such as tile flooring, are cleaned.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

example 1

Application of Tannic Acid-Containing Treatment Compositions onto A Variety of Previously Colored Contract Fabrics

[0190] The following carpet sample substrates were used in the present example: [0191] Sample A—Shaw 1353 Eco Solution Q Sk; Skein dyed; Suessen set [0192] Sample B—Shaw 1354 Eco Solution Q Sk; Melt colored; Superba set [0193] Sample C—Solutia 1360 Sk; Skein dyed; Superba set [0194] Sample D—Solutia 1202 SD; Melt colored; Superba set [0195] Sample E—BASF 1250 Savant; Skein dyed; Superba set [0196] Sample F—DuPont 1245 Lumena; Melt colored; Superba set

[0197] The above samples are contract greige products, tufted into level loop constructions. Greige samples A, C and E are skein dyed with level dyeing acid dyes. Greige samples B, D and F are melt colored using pigments during fiber extrusion.

[0198] Each sample was scoured with deionized water to provide a wet pick-up of about 400 wt % water, and then extracted using a centrifuge. An aftertreatment and a topical spray we...

example 2

Application of Tannic Acid-Containing Treatment Compositions

[0204] Carpet sample comprising greige 2099 were dyed using the above-described dyebath composition. The carpet samples were dyed using an Ahiba dyeing process as described above. The carpet samples were then subjected to an aftertreatment composition with or without a topical spray composition using an Ahiba or continuous aftertreatment process as described above. Process variables are shown in Table 3 below.

[0205] The total wet pick-up during the aftertreatment step was about 400 wt % for each sample. The total steam time for each sample was 180 seconds. The total wet pick-up during the topical spray step was about 40 wt % for each sample exposed to the topical spray step.

[0206] Following the treatment steps, each sample was tested for discoloration using (i) the visual gray scale rating system, and (ii) color difference values (ΔE) as measured using a Macbeth 20 / 20 contact spectrophotometer. The results are shown in T...

example 3

Application of Tannic Acid-Containing Treatment Compositions

[0209] Example 2 was repeated except that tannic acid 3SP was used in place of tannic acid ASP. Process variables for Example 3 are shown in Table 5 below. Discoloration results are shown in Table 6 below.

TABLE 5Aftertreatment and Topical Spray TreatmentsAftertreatment Composition Components and Percent On Weight of Fiber%%%%%SampleAftertreatC1owfC2owfC3owfC4owfC5owf3-2AAhiba3SP1.6Citric Acidas req3-2BAhiba3SP1.6Citric Acidas req3-2CAhiba3SP0.4APT0.15AP633.5A80Nas req3-2DAhiba3SP0.4APT0.15AP633.5A80Nas req3-2EContinuous3SP2.5Eulysine Sas reqAcetic 800.5Isoprop0.53-2FContinuous3SP2.5Eulysine Sas reqAcetic 800.5Isoprop0.5Alum2.53-2GContinuous3SP2.5Eulysine Sas reqAcetic 800.5Isoprop0.53-2HContinuous3SP2.5Eulysine Sas reqAcetic 800.5Isoprop0.5Alum2.53-2IContinuous3SP0.4AP631A80Nas req3-2JContinuous3SP0.4AP631A80Nas req3-2KAhiba3SP0.4APT0.15AP633.5A80Nas req3-2LContinuous3SP0.4AP631A80Nas reqAftertreatment CompositionTopical...

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Abstract

Methods of enhancing stain resistance of fibers, carpet yarns and carpets are disclosed. Treating compositions used to enhance the stain resistance of fibers, carpet yarns and carpets are also disclosed.

Description

FIELD OF THE INVENTION [0001] The present invention is directed to methods and compositions for treating fibers, and especially carpet yarns and carpets that include nylon fibers. The present invention is further directed to methods for cleaning fibers, carpet yarns and carpets. BACKGROUND OF THE INVENTION [0002] In the last two decades, there has been considerable interest in developing treatments for carpet fibers, particularly nylon carpet fibers, to enhance repellency and stain resistance. A number of treatments have been developed that provide enhanced repellency and stain resistance to nylon carpet yarns; however, the stain and soil resistant treatments can be removed from the fiber by high pH cleaning solutions, and in certain cases, the protective materials on the fiber can produce discoloration when high pH cleaning solutions (i.e., cleaning solutions having a pH of greater than about 7.5) are applied to the treated yarns. High pH cleaning solutions, such as dilute caustic ...

Claims

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Application Information

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IPC IPC(8): D06L1/00A47G27/02D06L1/12D06M10/00D06M11/00D06M11/20D06M11/83D06M13/152D06M13/207D06M13/238D06M13/432D06M13/513D06M15/233D06M15/248D06M15/256D06M15/263D06M15/277D06M15/41
CPCD06M11/20D06M13/207D06M13/238D06M15/412D06M15/248D06M15/263D06M15/277D06M13/513
Inventor JONES, DENNIS J. JR.
Owner COLUMBIA INSURANCE CO
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