CN106436361A - Dyeing method of short floss fabric - Google Patents

Abstract

The invention discloses a dyeing method of a short floss fabric, wherein the dyeing method comprises the following steps: 1) successively adding dibutyltin dilaurate, aromatic polyether sodium benzenesulfonate, sodium pyrophosphate, blocked type isocyanate and a plant dye into deionized water in a dyeing vat, stirring evenly, and heating to 55 DEG C; 2) then successively adding alpha-aminopropionic acid, polyethylene glycol mono(tristyrylphenyl)ether sulfonate, vinyl siloxane and tea polyphenol, continuing to stir to fully and evenly mix, and heating to 65 DEG C; 3) soaking a fabric in the dyeing vat for 35 minutes; 4) drying the soaked fabric at the temperature of 80 DEG C; 5) immersing the dried fabric into clear water, and rinsing for 35 minutes; and 6) taking out the rinsed fabric, and naturally air-drying. The dyed fabric has the advantages of excellent color fastness, good dyeing uniformity, and no color spots.

Description

The colouring method of short-floss fabric

Technical field

The present invention relates to the colouring method of short-floss fabric.

Background technology

The colouring method of existing short-floss fabric, the color fastness of dyed shell fabrics is not high, and dyeing uniformity is bad, and easily produces Add lustre to flower.

Content of the invention

It is an object of the invention to provide the colouring method of a kind of short-floss fabric, the fabric after its dyeing has excellent PERSPIRATION COLOR FASTNESS, colour fastness to water, Washing, dry-cleaning color fastness, colorfastness to rubbing, weathering color fastness, chlorine drift color fastness, Non-chlorine floats color fastness, and dyeing uniformity is good, colourless flower.

For achieving the above object, the technical scheme is that and design the colouring method of a kind of short-floss fabric, including as Lower step：

1) in dye vat, it is sequentially added into 1～2 weight portion dibutyl tin laurate, 0.4 parts by weight of aromatic polyethers benzene sulphur Acid sodium, 0.9 weight portion sodium pyrophosphate, 1.8 weight portion blocked isocyanates, 35 weight portion vegetable colours put into 150 weights successively Amount part deionized water, stirs, and is heated to 55 DEG C；

2) 2.1 weight portion α-aminopropionic acids, 0.8 weight portion tristyrylphenol polyoxyethylene ether sulfonic acid are put into again successively Salt, 1.2 parts by weight of ethylene radical siloxanes, 0.7 weight portion Tea Polyphenols, continue stirring, uniform to being sufficiently mixed, and is heated to 65 ℃；

3) fabric is immersed in dye vat 35 minutes；

4) fabric after soaking is 80 DEG C of drying；

5) fabric after drying immerses rinsing 35 minutes in clear water；

6) fabric after taking out rinsing dries naturally.

Preferably, the colouring method of short-floss fabric, comprises the steps：

1) in dye vat, it is sequentially added into 1 weight portion dibutyl tin laurate, 0.4 parts by weight of aromatic polyethers benzene sulfonic acid Sodium, 0.9 weight portion sodium pyrophosphate, 1.8 weight portion blocked isocyanates, 35 weight portion vegetable colours put into 150 weight successively Part deionized water, stirs, and is heated to 55 DEG C；

2) 2.1 weight portion α-aminopropionic acids, 0.8 weight portion tristyrylphenol polyoxyethylene ether sulfonic acid are put into again successively Salt, 1.2 parts by weight of ethylene radical siloxanes, 0.7 weight portion Tea Polyphenols, continue stirring, uniform to being sufficiently mixed, and is heated to 65 ℃；

3) fabric is immersed in dye vat 35 minutes；

4) fabric after soaking is 80 DEG C of drying；

5) fabric after drying immerses rinsing 35 minutes in clear water；

6) fabric after taking out rinsing dries naturally.

Preferably, the colouring method of short-floss fabric, comprises the steps：

1) in dye vat, it is sequentially added into 2 weight portion dibutyl tin laurates, 0.4 parts by weight of aromatic polyethers benzene sulfonic acid Sodium, 0.9 weight portion sodium pyrophosphate, 1.8 weight portion blocked isocyanates, 35 weight portion vegetable colours put into 150 weight successively Part deionized water, stirs, and is heated to 55 DEG C；

2) 2.1 weight portion α-aminopropionic acids, 0.8 weight portion tristyrylphenol polyoxyethylene ether sulfonic acid are put into again successively Salt, 1.2 parts by weight of ethylene radical siloxanes, 0.7 weight portion Tea Polyphenols, continue stirring, uniform to being sufficiently mixed, and is heated to 65 ℃；

3) fabric is immersed in dye vat 35 minutes；

4) fabric after soaking is 80 DEG C of drying；

5) fabric after drying immerses rinsing 35 minutes in clear water；

6) fabric after taking out rinsing dries naturally.

Preferably, the colouring method of short-floss fabric, comprises the steps：

1) in dye vat, it is sequentially added into 1.2 weight portion dibutyl tin laurates, 0.4 parts by weight of aromatic polyethers benzene sulfonic acid Sodium, 0.9 weight portion sodium pyrophosphate, 1.8 weight portion blocked isocyanates, 35 weight portion vegetable colours put into 150 weight successively Part deionized water, stirs, and is heated to 55 DEG C；

2) 2.1 weight portion α-aminopropionic acids, 0.8 weight portion tristyrylphenol polyoxyethylene ether sulfonic acid are put into again successively Salt, 1.2 parts by weight of ethylene radical siloxanes, 0.7 weight portion Tea Polyphenols, continue stirring, uniform to being sufficiently mixed, and is heated to 65 ℃；

3) fabric is immersed in dye vat 35 minutes；

4) fabric after soaking is 80 DEG C of drying；

5) fabric after drying immerses rinsing 35 minutes in clear water；

6) fabric after taking out rinsing dries naturally.

Advantages of the present invention and having the beneficial effects that：There is provided the colouring method of a kind of short-floss fabric, the face after its dyeing Material has excellent PERSPIRATION COLOR FASTNESS, colour fastness to water, Washing, dry-cleaning color fastness, colorfastness to rubbing, Exposure to Sunlight look jail Degree, chlorine drift color fastness, non-chlorine drift color fastness, and dyeing uniformity is good, colourless flower.

The Color of fabric is to be largely to be determined by dyestuff, the component of auxiliary agent and proportioning in dye vat, and Processing step, technological parameter (time, temperature etc.) also function to key effect.

In dye vat, the different component of " dyestuff, auxiliary agent " can influence each other, the synthesis of various ingredients and proportioning thereof, can very great Cheng Determining the final Color of fabric on degree, if the component of " dyestuff, auxiliary agent " and proportioning be not mutually coordinated, single component is carried The beneficial effect coming, even can be eliminated by other components abatement, and when serious, different component is mutually conflicted, and does not has entirety Comprehensive function, produces negative interaction and substandard products.The present invention by a large amount of creative works, repeatedly verify, obtains " dyestuff, auxiliary agent " Optimal component and proportioning so that various ingredients combines, mutually coordinated and produce forward comprehensive effect.

The present invention, more on the basis of the optimal component and proportioning of above-mentioned " dyestuff, auxiliary agent ", is equipped with and is somebody's turn to do " dyestuff, auxiliary agent " phase Supporting optimum process step, technological parameter so that the final Color of fabric reaches optimum.

Detailed description of the invention

Below in conjunction with embodiment, the detailed description of the invention of the present invention is further described.Following example are only used for more Add and clearly demonstrate technical scheme, and can not limit the scope of the invention with this.

The technical scheme that the present invention is embodied as is：

Embodiment 1

The colouring method of short-floss fabric, comprises the steps：

1) in dye vat, it is sequentially added into 1～2 weight portion dibutyl tin laurate, 0.4 parts by weight of aromatic polyethers benzene sulphur Acid sodium, 0.9 weight portion sodium pyrophosphate, 1.8 weight portion blocked isocyanates, 35 weight portion vegetable colours put into 150 weights successively Amount part deionized water, stirs, and is heated to 55 DEG C；

2) 2.1 weight portion α-aminopropionic acids, 0.8 weight portion tristyrylphenol polyoxyethylene ether sulfonic acid are put into again successively Salt, 1.2 parts by weight of ethylene radical siloxanes, 0.7 weight portion Tea Polyphenols, continue stirring, uniform to being sufficiently mixed, and is heated to 65 ℃；

3) fabric is immersed in dye vat 35 minutes；

4) fabric after soaking is 80 DEG C of drying；

5) fabric after drying immerses rinsing 35 minutes in clear water；

6) fabric after taking out rinsing dries naturally.

Embodiment 2

The colouring method of short-floss fabric, comprises the steps：

1) in dye vat, it is sequentially added into 1 weight portion dibutyl tin laurate, 0.4 parts by weight of aromatic polyethers benzene sulfonic acid Sodium, 0.9 weight portion sodium pyrophosphate, 1.8 weight portion blocked isocyanates, 35 weight portion vegetable colours put into 150 weight successively Part deionized water, stirs, and is heated to 55 DEG C；

2) 2.1 weight portion α-aminopropionic acids, 0.8 weight portion tristyrylphenol polyoxyethylene ether sulfonic acid are put into again successively Salt, 1.2 parts by weight of ethylene radical siloxanes, 0.7 weight portion Tea Polyphenols, continue stirring, uniform to being sufficiently mixed, and is heated to 65 ℃；

3) fabric is immersed in dye vat 35 minutes；

4) fabric after soaking is 80 DEG C of drying；

5) fabric after drying immerses rinsing 35 minutes in clear water；

6) fabric after taking out rinsing dries naturally.

Embodiment 3

The colouring method of short-floss fabric, comprises the steps：

1) in dye vat, it is sequentially added into 2 weight portion dibutyl tin laurates, 0.4 parts by weight of aromatic polyethers benzene sulfonic acid Sodium, 0.9 weight portion sodium pyrophosphate, 1.8 weight portion blocked isocyanates, 35 weight portion vegetable colours put into 150 weight successively Part deionized water, stirs, and is heated to 55 DEG C；

2) 2.1 weight portion α-aminopropionic acids, 0.8 weight portion tristyrylphenol polyoxyethylene ether sulfonic acid are put into again successively Salt, 1.2 parts by weight of ethylene radical siloxanes, 0.7 weight portion Tea Polyphenols, continue stirring, uniform to being sufficiently mixed, and is heated to 65 ℃；

3) fabric is immersed in dye vat 35 minutes；

4) fabric after soaking is 80 DEG C of drying；

5) fabric after drying immerses rinsing 35 minutes in clear water；

6) fabric after taking out rinsing dries naturally.

Embodiment 4

The colouring method of short-floss fabric, comprises the steps：

1) in dye vat, it is sequentially added into 1.2 weight portion dibutyl tin laurates, 0.4 parts by weight of aromatic polyethers benzene sulfonic acid Sodium, 0.9 weight portion sodium pyrophosphate, 1.8 weight portion blocked isocyanates, 35 weight portion vegetable colours put into 150 weight successively Part deionized water, stirs, and is heated to 55 DEG C；

2) 2.1 weight portion α-aminopropionic acids, 0.8 weight portion tristyrylphenol polyoxyethylene ether sulfonic acid are put into again successively Salt, 1.2 parts by weight of ethylene radical siloxanes, 0.7 weight portion Tea Polyphenols, continue stirring, uniform to being sufficiently mixed, and is heated to 65 ℃；

3) fabric is immersed in dye vat 35 minutes；

4) fabric after soaking is 80 DEG C of drying；

5) fabric after drying immerses rinsing 35 minutes in clear water；

6) fabric after taking out rinsing dries naturally.

Fabric after the various embodiments described above dyeing have excellent PERSPIRATION COLOR FASTNESS, colour fastness to water, Washing, Dry-cleaning color fastness, colorfastness to rubbing, weathering color fastness, chlorine drift color fastness, non-chlorine drift color fastness, and dyeing uniformity is good, colourless Flower.

The above is only the preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For Yuan, on the premise of without departing from the technology of the present invention principle, some improvements and modifications can also be made, these improvements and modifications Also should be regarded as protection scope of the present invention.

Claims (4)

1. the colouring method of short-floss fabric, it is characterised in that comprise the steps：

1) be sequentially added in dye vat 1～2 weight portion dibutyl tin laurate, 0.4 parts by weight of aromatic polyethers benzene sulfonic acid sodium salt, 0.9 weight portion sodium pyrophosphate, 1.8 weight portion blocked isocyanates, 35 weight portion vegetable colours put into 150 weight portions successively and go Ionized water, stirs, and is heated to 55 DEG C；

2) put into successively again 2.1 weight portion α-aminopropionic acids, 0.8 weight portion tristyrylphenol polyoxyethylene ether sulfonate, 1.2 parts by weight of ethylene radical siloxanes, 0.7 weight portion Tea Polyphenols, continue stirring, uniform to being sufficiently mixed, and is heated to 65 DEG C；

3) fabric is immersed in dye vat 35 minutes；

4) fabric after soaking is 80 DEG C of drying；

5) fabric after drying immerses rinsing 35 minutes in clear water；

6) fabric after taking out rinsing dries naturally.

2. the colouring method of short-floss fabric according to claim 1, it is characterised in that comprise the steps：

1) be sequentially added in dye vat 1 weight portion dibutyl tin laurate, 0.4 parts by weight of aromatic polyethers benzene sulfonic acid sodium salt, 0.9 Weight portion sodium pyrophosphate, 1.8 weight portion blocked isocyanates, 35 weight portion vegetable colours put into successively 150 weight portions go from Sub-water, stirs, and is heated to 55 DEG C；

2) put into successively again 2.1 weight portion α-aminopropionic acids, 0.8 weight portion tristyrylphenol polyoxyethylene ether sulfonate, 1.2 parts by weight of ethylene radical siloxanes, 0.7 weight portion Tea Polyphenols, continue stirring, uniform to being sufficiently mixed, and is heated to 65 DEG C；

3) fabric is immersed in dye vat 35 minutes；

4) fabric after soaking is 80 DEG C of drying；

5) fabric after drying immerses rinsing 35 minutes in clear water；

6) fabric after taking out rinsing dries naturally.

3. the colouring method of short-floss fabric according to claim 1, it is characterised in that comprise the steps：

1) be sequentially added in dye vat 2 weight portion dibutyl tin laurates, 0.4 parts by weight of aromatic polyethers benzene sulfonic acid sodium salt, 0.9 Weight portion sodium pyrophosphate, 1.8 weight portion blocked isocyanates, 35 weight portion vegetable colours put into successively 150 weight portions go from Sub-water, stirs, and is heated to 55 DEG C；

2) put into successively again 2.1 weight portion α-aminopropionic acids, 0.8 weight portion tristyrylphenol polyoxyethylene ether sulfonate, 1.2 parts by weight of ethylene radical siloxanes, 0.7 weight portion Tea Polyphenols, continue stirring, uniform to being sufficiently mixed, and is heated to 65 DEG C；

3) fabric is immersed in dye vat 35 minutes；

4) fabric after soaking is 80 DEG C of drying；

5) fabric after drying immerses rinsing 35 minutes in clear water；

6) fabric after taking out rinsing dries naturally.

4. the colouring method of short-floss fabric according to claim 1, it is characterised in that comprise the steps：

1) be sequentially added in dye vat 1.2 weight portion dibutyl tin laurates, 0.4 parts by weight of aromatic polyethers benzene sulfonic acid sodium salt, 0.9 weight portion sodium pyrophosphate, 1.8 weight portion blocked isocyanates, 35 weight portion vegetable colours put into 150 weight portions successively and go Ionized water, stirs, and is heated to 55 DEG C；

2) put into successively again 2.1 weight portion α-aminopropionic acids, 0.8 weight portion tristyrylphenol polyoxyethylene ether sulfonate, 1.2 parts by weight of ethylene radical siloxanes, 0.7 weight portion Tea Polyphenols, continue stirring, uniform to being sufficiently mixed, and is heated to 65 DEG C；

3) fabric is immersed in dye vat 35 minutes；

4) fabric after soaking is 80 DEG C of drying；

5) fabric after drying immerses rinsing 35 minutes in clear water；

6) fabric after taking out rinsing dries naturally.