CN108442134B - Dye for milk yarn non-woven fabric lace and dyeing process thereof - Google Patents

Abstract

The invention discloses a dye for a milk silk non-woven fabric lace and a dyeing process thereof. The dye for the milk yarn non-woven fabric lace comprises the following components in parts by weight: 0.2-0.3 part of dispersed orange S-4RL, 0.7-0.8 part of dispersed ruby S-5BL, 0.3-0.4 part of dispersed dark blue HGL, 0.4-0.6 part of glacial acetic acid, 7-10 parts of neutral salt, 0.1-0.2 part of dodecyl glucoside, 0.1-0.2 part of peregal O and 95-105 parts of water. The invention has the beneficial effects that: the milk yarn non-woven fabric lace obtained by dyeing the milk yarn non-woven fabric lace with the dye has good color fastness to light.

Description

Dye for milk yarn non-woven fabric lace and dyeing process thereof

Technical Field

The invention relates to a dye, in particular to a dye for a milk yarn non-woven fabric lace and a dyeing process thereof.

Background

The milk shreds are prepared by degreasing liquid milk, removing water to obtain milk protein, adding softener, making into milk slurry, wet spinning to obtain milk protein fiber, and further spinning to obtain milk shreds capable of being woven.

Chinese patent publication No. CN104420340A discloses a dyeing process of milk filaments; the dyeing process sequentially comprises 5 steps of dye liquor preparation, dyeing, color fixation, water washing, soap boiling and water washing; the dye solution comprises working solution, and the pH value is adjusted to 4.5 by using citric acid, disodium hydrogen phosphate or acetic acid and sodium acetate; the working solution contains 2 percent of dye and 0.4g/L of peregal O; during dyeing, the bath ratio is controlled to be 1: 50, dyeing is started at 30 ℃, then the temperature is raised to 80 ℃, and dyeing is carried out for 80 min.

The milk thread non-woven fabric lace is formed by sewing milk threads on non-woven fabric to form patterns, then dissolving the non-woven fabric, and only the patterns sewn by the milk threads are left. In the prior art, disperse red S-2GFL or disperse blue HGL is generally adopted as a dye to dye the milk filaments. However, although the light fastness of the non-woven lace made of the milk yarns prepared by the milk yarn dyeing process by using the disperse red S-2GFL or the disperse blue HGL as the dye is improved, the requirement of people cannot be met, and the improvement is needed.

Disclosure of Invention

The invention aims to provide a dye for a lace of a milk yarn non-woven fabric. The milk yarn non-woven fabric lace obtained by dyeing the milk yarn non-woven fabric lace with the dye has good color fastness to light.

The technical purpose of the invention is realized by the following technical scheme:

the dye for the milk yarn non-woven fabric lace comprises the following components in parts by weight:

0.2-0.3 part of dispersed orange S-4RL, 0.7-0.8 part of dispersed ruby S-5BL, 0.3-0.4 part of dispersed dark blue HGL, 0.4-0.6 part of glacial acetic acid, 7-10 parts of neutral salt, 0.1-0.2 part of dodecyl glucoside, 0.1-0.2 part of peregal O and 95-105 parts of water.

By adopting the technical scheme, the disperse orange S-4RL, the disperse ruby S-5BL and the disperse deep blue HGL are disperse dyes. The milk filaments are poor in alkali resistance and low in dye uptake in an alkaline environment, and glacial acetic acid is used for adjusting the pH value of the dye to be acidic and enhancing the dye uptake of the milk filaments. The addition of the neutral salt can reduce the solubility of the protein in the milk shreds, namely, can salt out the protein, thereby reducing the hydrolysis of the protein in the milk shreds during dyeing and improving the color fastness. Dodecyl glucoside belongs to nonionic surfactant alkyl glucoside, is colorless transparent liquid, is easily soluble in water and common organic solvents, and has long-chain molecules of hydrophilic polar groups and hydrophobic nonpolar groups. Peregal O is a nonionic surfactant, mainly comprises polyoxyethylene fatty alcohol ether, is in the form of cream or beige ointment, can be frozen when meeting cold, is easily dissolved in water, and is in a stable state in hard water, acid liquor or alkali liquor.

The invention is further configured to: the neutral salt is at least one of sodium sulfate and potassium sulfate.

By adopting the technical scheme, the sodium sulfate and the potassium sulfate have good water solubility, are common neutral salts, and are cheap and easily available. Sulfate ions in the sodium sulfate and potassium sulfate can improve the stability of protein conformation in the milk silk, thereby reducing the hydrolysis of protein in the milk silk during dyeing and improving color fastness.

The invention also aims to provide a dyeing process of the milk yarn non-woven fabric lace, which comprises the following steps:

step 1: dissolving the non-woven fabric in the lace of the milk silk non-woven fabric by using water, and discharging;

step 2: adding the non-woven fabric lace of the milk filaments obtained in the step (1) into the dye, heating to 125-;

and step 3: adding the milk silk non-woven fabric lace obtained in the step 2 into water, adding a functional finishing agent, soaking and shaping;

the functional finishing agent comprises the following components in parts by weight:

1-2 parts of antibacterial agent, 3-5 parts of ultraviolet absorbent, 1-4 parts of antistatic agent and 1-2 parts of color fixing agent.

By adopting the technical scheme, when the dye is adopted for dyeing, the milk silk can be dyed at the temperature of 125-135 ℃, so that the color fastness after dyeing is improved. The antibacterial agent can endow the lace with antibacterial performance, the ultraviolet absorbent can endow the lace with good ultraviolet resistance, the antistatic agent can endow the lace with good resistance, the conductivity is reduced, and the color fixing agent can enhance the bonding strength of the dye and the milk yarns.

The invention is further configured to: the antibacterial agent is a biguanide antibacterial agent.

By adopting the technical scheme, the biguanide antibacterial agent leads the cell surface layer structure to be denatured and destroys bacteria by blocking the action of the cell lysozyme.

The invention is further configured to: the biguanide antibacterial agent is polyhexamethylene biguanide hydrochloride.

By adopting the technical scheme, the polyhexamethylene biguanide hydrochloride has broad-spectrum, long-term and high-efficiency sterilization and disinfection capability, the toxicity of the polyhexamethylene biguanide hydrochloride is determined to be a non-toxic grade bactericide after detection, the polyhexamethylene biguanide hydrochloride has no irritation to skin mucosa and can be completely biodegraded, and the unique sterilization mechanism of the polyhexamethylene biguanide hydrochloride can not generate any drug resistance; colorless or light amber clear liquid, good water solubility, no color and no odor, and pH of 7-8.

The invention is further configured to: the ultraviolet absorbent is benzotriazole ultraviolet absorbent.

By adopting the technical scheme, the benzotriazole ultraviolet absorbent is a product with the largest yield and the largest variety in the ultraviolet absorbent, and has higher light absorption index within 300-385 nm; before absorbing light, the ultraviolet absorbent exists in the form of phenol compounds, because the electron density on an oxygen atom is far greater than that on a nitrogen atom of a triazole ring, so that the phenol compounds are strongly alkaline, the electron density is mainly moved from the oxygen atom to the nitrogen atom of the triazole ring by the absorption of light, the phenol is more acidic, the nitrogen atom is more alkaline, and protons are rapidly transferred to the nitrogen atom to form tautomers. This tautomer is unstable and can safely convert excess energy to thermal energy, returning to a more stable ground state. The entire tautomerization process is extremely efficient and can be repeated almost indefinitely, which is why the compounds are photostable.

The invention is further configured to: the benzotriazole ultraviolet absorbent is one of UV-P, UV-327.

By adopting the technical scheme, the chemical name of UV-P is 2- (2 '-hydroxy-5' -methylphenyl) benzotriazole, and the UV-P can strongly absorb the ultraviolet rays with the wavelength of 270-340 nm; the appearance is colorless or light yellow crystal; can be dissolved in various organic solvents such as gasoline, benzene, acetone and the like, has extremely low solubility in water, is not decomposed by concentrated alkali and concentrated acid, and can be combined with heavy metal ions to form salts; can absorb ultraviolet rays with the wavelength of 270-280 nm; stability in clear articles is better than in colored articles. The chemical name of UV-327 is 2- (2 ' -hydroxy-3 ', 5 ' -di-tert-butylphenyl) -5-chlorobenzotriazole, which is a light yellow powder having a melting point of 156 ℃, and has the characteristics of low toxicity, strong ultraviolet absorption capability, and the like.

The invention is further configured to: the antistatic agent is quaternary ammonium salt antistatic agent.

By adopting the technical scheme, the quaternary ammonium salt antistatic agent belongs to a cationic type, has good static elimination effect and strong adsorption capacity, but has poor heat resistance and is easy to thermally decompose.

The invention is further configured to: the quaternary ammonium salt antistatic agent is one of stearyl trimethyl ammonium chloride and dilauryl dimethyl ammonium chloride.

By adopting the technical scheme, the stearyl trimethyl ammonium chloride can be dissolved in alcohol and hot water; has good compatibility with cationic, nonionic surfactant or dye, and is not compatible with anionic surfactant, dye or adjuvant. The dilauryl dimethyl ammonium chloride is white or yellowish paste, is easily soluble in polar solvent, and is slightly soluble in water; the modified polyether polyol has good compatibility with cationic, nonionic and zwitterionic surfactants; is very easy to be adsorbed to the surface with negative charge; the fibers bound into balls can be fluffy and soft.

The invention is further configured to: the color fixing agent is one of a color fixing agent Y and a color fixing agent M.

By adopting the technical scheme, the color fixing agent Y is colorless transparent viscous liquid, and can be prepared into a solid after drying; the chemical composition is dicyandiamide formaldehyde resin water-soluble initial condensate which is very easy to dissolve in water and can be used by mixing with non-ionized and cationic surfactants or cationic synthetic resin initial condensate, and can not be used by mixing with anionic dyes and anionic surfactants; precipitates can be generated when hard water, strong acid, strong base, tannic acid, rongalite and a large amount of sulfate, hypochlorite and the like are encountered. The color fixing agent M is dissolved in water and 2% acetic acid; the dye fixing agent is prepared by the reaction of a color fixing agent Y and copper acetate, can be used together with a cationic or nonionic surfactant, and cannot be used together with an anionic dye or a surfactant in a bath.

In conclusion, the invention has the following beneficial effects:

1. neutral salt is added into the dye to reduce the solubility of protein in the milk shreds, so that the hydrolysis of the protein in the milk shreds during dyeing is reduced;

2. the neutral salt is potassium sulfate and sodium sulfate containing sulfate ions, the stability of protein conformation in the milk filaments is improved by using the sulfate ions, the hydrolysis of the protein in the milk filaments during dyeing is reduced, and the color fastness is improved.

Detailed Description

Disperse orange S-4RL, disperse red jade S-5BL, disperse dark blue HGL, disperse red S-2GFL are all purchased from Zhejiang Longsheng group GmbH;

glacial acetic acid, sodium sulfate and potassium sulfate are all commercial products;

dodecyl glucoside is purchased from hong chemical limited company, guangzhou city;

pingpingao is purchased from ten thousand new materials, ltd, guangzhou;

polyhexamethylene biguanide hydrochloride was purchased from denna water chemical technology ltd;

UV-P, UV-327 was purchased from Guangzhou TelIiei chemical Co., Ltd;

stearyl trimethyl ammonium chloride and dilauryl dimethyl ammonium chloride were purchased from Suzhou Yuantui chemical Co., Ltd;

the fixing agent Y and the fixing agent M are purchased from Shandong Kaya chemical Co.

TABLE 1, EXAMPLES 1-5 composition table of dyes for lace of milk yarn nonwoven fabric

Examples 1-5 preparation of dyes for lace of milk yarn non-woven fabric was as follows:

a preparation method of a dye for a milk yarn non-woven fabric lace comprises the following steps:

weighing dispersed orange S-4RL, dispersed red jade S-5BL, dispersed dark blue HGL, glacial acetic acid, neutral salt, dodecyl glucoside, peregal O and water, and mixing uniformly.

TABLE 2 parameters of the dyeing process for non-woven fabric lace of milk silk 6-10

The dyes used in examples 6 to 10 correspond to the dyes for lace of milk yarn non-woven fabric prepared according to examples 1 to 5. Example 6 corresponds to example 1, example 7 corresponds to example 2, example 8 corresponds to example 3, example 9 corresponds to example 4, and example 10 corresponds to example 5.

Example 6-10 dyeing process of non-woven lace of milk yarn as follows:

a dyeing process of a milk silk non-woven fabric lace comprises the following steps:

step 1: firstly, putting the non-woven fabric lace of the milk silk into water bath at 100 ℃ for 2 hours to dissolve the non-woven fabric, discharging and weighing;

step 2: adding the non-woven fabric lace of the milk filaments obtained in the step 1 into a dye, wherein the bath ratio is 1: 20, heating, preserving heat, dyeing, and discharging after dyeing is finished;

and step 3: and (3) adding the milk silk non-woven fabric lace obtained in the step (2) into water, adding a functional finishing agent, soaking and shaping.

Comparative example 1

The method selects Chinese patent with publication number CN104420340A to dye the non-woven lace of milk silk as comparative example 1, and the specific dyeing process comprises the following steps:

(a) preparing a dye solution: preparing a working solution containing 2 wt% of disperse red S-2GFL and 0.4g/L peregal O, and adjusting the pH value to 4.5 by using citric acid, disodium hydrogen phosphate or acetic acid and sodium acetate in a bath ratio of 1: 50;

(b) dyeing: firstly, putting the non-woven fabric lace of the milk silk into water bath at 100 ℃ for 2 hours to dissolve the non-woven fabric, discharging and weighing; putting the non-woven fabric lace of the milk yarn into working solution for dyeing, starting dyeing at 30 ℃, heating to 80 ℃, and preserving heat for dyeing for 80 min;

(c) and (3) fixation: immersing the non-woven fabric lace of the milk yarn into a soda solution at 85 ℃ for color fixation, wherein the color fixation time is 20-40 min;

(d) washing with water: cleaning the non-woven fabric lace of the milk silk with clear water;

(e) soap boiling: soaping the non-woven fabric lace of the milk silk in a solution containing 0.25-0.4g/L of saponin, wherein the soaping temperature is 80 ℃;

(f) washing with water: and cleaning the non-woven fabric lace of the milk silk by using clean water.

The light fastness of the milk yarn non-woven fabric laces obtained in examples 6 to 10 and comparative example 1 was tested with reference to GB/T8427 and 2008 "color fastness to artificial light for textiles".

Reference is made to GB/T12703.2-2009 section 2 evaluation of textile Electrostatic Performance: charge areal Density test the antistatic properties of the milk yarn non-woven fabric laces obtained in examples 6 to 10 and comparative example 1.

Reference GB/T21655.1-2008 "evaluation of quick moisture absorption drying of textiles (part 1): the moisture absorption and quick drying properties of the milk yarn non-woven fabric laces obtained in examples 6 to 10 and comparative example 1 were tested by the single combination test method.

Reference is made to GB/T20944.1-2007 evaluation part 1 of antibacterial properties of textiles: the antibacterial properties of the milk yarn non-woven fabric laces obtained in examples 6 to 10 and comparative example 1 were tested by the agar diffusion method.

Table 3, examples 6 to 10 and comparative example 1 are recorded in the light fastness test

TABLE 4, EXAMPLES 6-10 AND COMPARATIVE EXAMPLE 1 TABLE FOR TEST OF ANTI-STATIC CHARACTERISTICS

Tables for moisture absorption quick drying test of Table 5, examples 6 to 10 and comparative example 1

Test record table of antibacterial properties of Table 6, examples 6 to 10 and comparative example 1

From tables 2-5, compared with comparative example 1, the milk yarn non-woven fabric prepared by the dye and the dyeing process of the invention not only has better color fastness to light, but also has good antistatic property, moisture absorption and quick drying property and antibacterial property.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (9)

1. The utility model provides a dyeing for milk silk non-woven fabrics lace which characterized by: the composition comprises the following components in parts by weight:

0.2-0.3 part of dispersed orange S-4RL, 0.7-0.8 part of dispersed ruby S-5BL, 0.3-0.4 part of dispersed dark blue HGL, 0.4-0.6 part of glacial acetic acid, 7-10 parts of neutral salt, 0.1-0.2 part of dodecyl glucoside, 0.1-0.2 part of peregal O and 95-105 parts of water; the neutral salt is at least one of sodium sulfate and potassium sulfate.

2. A dyeing process of a milk silk non-woven fabric lace is characterized by comprising the following steps: the method comprises the following steps:

step 1: dissolving the non-woven fabric in the lace of the milk silk non-woven fabric by using water, and discharging;

step 2: adding the non-woven lace of the milk filaments obtained in the step 1 into the dye as claimed in claim 1, heating to 125-135 ℃, then preserving heat for 50-70min, dyeing, and discharging after dyeing is finished;

and step 3: adding the milk silk non-woven fabric lace obtained in the step 2 into water, adding a functional finishing agent, soaking and shaping;

the functional finishing agent comprises the following components in parts by weight:

1-2 parts of antibacterial agent, 3-5 parts of ultraviolet absorbent, 1-4 parts of antistatic agent and 1-2 parts of color fixing agent.

3. The dyeing process of the milk yarn non-woven fabric lace according to the claim 2, which is characterized in that: the antibacterial agent is a biguanide antibacterial agent.

4. The dyeing process of the milk yarn non-woven fabric lace according to the claim 3, which is characterized in that: the biguanide antibacterial agent is polyhexamethylene biguanide hydrochloride.

5. The dyeing process of the milk yarn non-woven fabric lace according to the claim 2, which is characterized in that: the ultraviolet absorbent is benzotriazole ultraviolet absorbent.

6. The dyeing process of the milk yarn non-woven fabric lace according to the claim 5, which is characterized in that: the benzotriazole ultraviolet absorbent is one of UV-P, UV-327.

7. The dyeing process of the milk yarn non-woven fabric lace according to the claim 2, which is characterized in that: the antistatic agent is quaternary ammonium salt antistatic agent.

8. The dyeing process of the milk yarn non-woven fabric lace according to the claim 7, which is characterized in that: the quaternary ammonium salt antistatic agent is one of stearyl trimethyl ammonium chloride and dilauryl dimethyl ammonium chloride.

9. The dyeing process of the milk yarn non-woven fabric lace according to the claim 2, which is characterized in that: the color fixing agent is one of a color fixing agent Y and a color fixing agent M.