CN108642911B - Improve the ecological antioxidant of natural dye dying fibre photooxidation resistant performance - Google Patents

Abstract

The present invention relates to an ecological antioxidant that improves the light oxidation resistance of natural dye-dyed fiber products. The antioxidant of the present invention includes superoxide dismutase and includes one or more of trehalose, deoxygenase, lipoic acid and chlorogenic acid. A variety of, specifically can include superoxide dismutase, chlorogenic acid and lipoic acid, and the mass ratio between the three is 1-5: 1-5: 1-5, the antioxidant of the present invention is mainly used for natural dyes dyeing After-treatment of the fabric, the related fastness of the fabric can be improved through the treatment. The antioxidant of the invention has the advantages of high efficiency and environmental protection, green non-toxicity, good durability, etc., and the treatment method has the advantages of low cost, simple and convenient, good operability and the like. It solves the problem of oxidative fading of natural dyes.

Description

An Ecological Antioxidant for Improving the Resistance to Light Oxidation of Natural Dye-dyed Fiber Products

technical field

The invention relates to an ecological antioxidant method for fiber products, in particular to an ecological antioxidant that improves the light oxidation resistance of natural dye-dyed fiber products.

Background technique

Under the action of light, the dyes on fiber products often undergo photoreduction or photooxidation reactions, and sometimes even act together at the beginning and end of the dye photofading process, which is an important reason for the photofading of dyes. Affected by the structure of natural dyes, it is more prone to photoreduction and photooxidation reactions, resulting in low relative color fastness of natural dye-dyed fabrics, limiting the further development of natural dyes, and the related problems of oxidative fading of natural dyes have not been solved. Effectively solve the defects of natural dye-dyed fabric swatches.

In order to solve the problem of light fading of natural dyes on fiber products, a lot of research has been carried out at home and abroad, and the technical core mainly focuses on indirectly improving the light fading fastness of fiber products by absorbing or shielding high-energy rays in light. For example, UV shielding agent method, UV absorber method.

UV shielding agent: The UV shielding treatment of textiles is to apply a substance that can reflect ultraviolet rays on the textile. The commonly used UV shielding agents are mostly metal oxides, such as TiO ₂ , ZnO, etc., but this UV shielding agent is generally coated with It is attached to the fabric in the form of slurries, which seriously affects the feel of the fabric, and the preparation process is complicated and the effect is not obvious.

Ultraviolet absorber: Ultraviolet absorber can selectively absorb ultraviolet rays, and can convert energy to reduce its transmission, and release or consume energy with heat energy or other harmless radiation. UV absorbers mainly include salicylates, benzophenones, benzotriazoles, substituted acrylonitriles, triazines and hindered amines. However, most of these UV absorbers are organic substances and have great side effects.

Although the above-mentioned auxiliaries for improving the resistance to light oxidation of dyes have certain effects, they obviously do not match the ecological characteristics of natural dyes. The reason why natural dyes have returned and been recognized by everyone is the ecological and human safety, comfort and some health care properties, so there is an urgent need for an antioxidant adjuvant with similar characteristics.

SUMMARY OF THE INVENTION

The technical problem to be solved by the present invention provides an ecological antioxidant that improves the light oxidation resistance of natural dye-dyed fiber products.

The technical scheme that the present invention solves the above-mentioned technical problems is as follows:

An ecological antioxidant for improving the light oxidation resistance of natural dye-dyed fiber products includes superoxide dismutase and one or more of trehalose, deoxygenase, lipoic acid and chlorogenic acid.

Further, including superoxide dismutase, chlorogenic acid and lipoic acid or including superoxide dismutase, chlorogenic acid and deoxygenase or including superoxide dismutase, lipoic acid and deoxygenase.

Further, when superoxide dismutase, chlorogenic acid and lipoic acid are included, the mass ratio between the three is 1-5:1-5:1-5; including superoxide dismutase, chlorogenic acid and deoxygenation When the enzyme is used, the mass ratio between the three is 1-5:1-5:1-5; when superoxide dismutase, lipoic acid and deoxygenase are included, the mass ratio between the three is 1-5: 1-5: 1-5.

Further, when superoxide dismutase, chlorogenic acid and lipoic acid are included, the mass ratio between the three is 1:0.5-2:0.5-2; when superoxide dismutase, chlorogenic acid and deoxygenase are included , the mass ratio between the three is 1:0.5-2:0.5-2; when including superoxide dismutase, lipoic acid and deoxygenase, the mass ratio between the three is 1:0.5-2:0.5- 2.

Further, superoxide dismutase, chlorogenic acid and lipoic acid are included, and the mass ratio between the superoxide dismutase, chlorogenic acid and lipoic acid is 1:0.5-2:0.5-2.

Further, it includes superoxide dismutase, chlorogenic acid and lipoic acid, and the mass ratio between the superoxide dismutase, chlorogenic acid and lipoic acid is 1:1:1.

The beneficial effects of the present invention are as follows: the antioxidant of the present invention is mainly used for the antioxidant treatment of natural dye dyed fiber products, and the related fastness of the fabric is improved through the treatment. The present invention has the following advantages: 1. The antioxidant of the present invention has high efficiency, and after the fiber product is subjected to anti-oxidation treatment, the solarization performance of the product is greatly improved; 2. It is environmentally friendly, and the antioxidant components of the present invention are all Natural antioxidant materials, no substances harmful to human body will be produced in the process of production and use; 3. Good durability, the antioxidant of the present invention can keep the antioxidant properties of fiber products through the action of enzymes; 4. It does not affect the product style, the antioxidant of the present invention is combined with the fiber by the method of dipping or padding and plays a role, the product feel does not change before and after the action, and the style does not change; 5. The operation is simple, compared with the sol method, the present invention The antioxidant treatment method does not require complicated operations. The invention lays a foundation for improving the wearing performance of natural dye-dyed fiber products, and solves the problem of oxidative fading of natural dyes.

Detailed ways

The principles and features of the present invention are described below, and the examples are only used to explain the present invention, but not to limit the scope of the present invention.

An ecological antioxidant for improving the light oxidation resistance of natural dye-dyed fiber products includes superoxide dismutase and one or more of trehalose, deoxygenase, lipoic acid and chlorogenic acid.

Preferably, it includes superoxide dismutase, chlorogenic acid and lipoic acid or includes superoxide dismutase, chlorogenic acid and deoxygenase or includes superoxide dismutase, lipoic acid and deoxygenase.

Preferably, when superoxide dismutase, chlorogenic acid and lipoic acid are included, the mass ratio between the three is 1-5:1-5:1-5; including superoxide dismutase, chlorogenic acid and deoxygenation When the enzyme is used, the mass ratio between the three is 1-5:1-5:1-5; when superoxide dismutase, lipoic acid and deoxygenase are included, the mass ratio between the three is 1-5: 1-5: 1-5.

Preferably, when superoxide dismutase, chlorogenic acid and lipoic acid are included, the mass ratio between the three is 1:0.5-2:0.5-2; when superoxide dismutase, chlorogenic acid and deoxygenase are included , the mass ratio between the three is 1:0.5-2:0.5-2; when including superoxide dismutase, lipoic acid and deoxygenase, the mass ratio between the three is 1:0.5-2:0.5- 2.

Preferably, superoxide dismutase, chlorogenic acid and lipoic acid are included, and the mass ratio between the superoxide dismutase, chlorogenic acid and lipoic acid is 1:0.5-2:0.5-2.

Preferably, superoxide dismutase, chlorogenic acid and lipoic acid are included, and the mass ratio between the superoxide dismutase, chlorogenic acid and lipoic acid is 1:1:1.

Experimental results

The dyed camellia swatches were treated with 20g/L antioxidants of different formulations, and then treated with D65 light source and D65+UV light source for 24 hours respectively, and the color difference ΔE before and after exposure was recorded as shown in Table 1.

Table 1

The dyed camellia swatches were treated with 30g/L antioxidants of different formulations, and then treated with D65 light source and D65+UV light source for 24 hours respectively, and the color difference ΔE before and after exposure was recorded as shown in Table 2.

Table 2

According to the reaction formula of superoxide dismutase

Enzyme-Cu ²⁺ +O ₂ ^·- → Enzyme-Cu ⁺ +O ₂ Enzyme-Cu ⁺ +O ₂ ^·- +2H ⁺ → Enzyme-Cu ²⁺ +H ₂ O ₂ It can be seen that superoxide dismutase only converts Superoxide free radicals are converted into hydrogen peroxide, which is a potential free radical and a more toxic substance. In the presence of variable valence metals, the Fenton reaction is prone to generate extremely active hydroxyl radicals. The reaction formula is:

Fe ²⁺ +H ₂ O ₂ →Fe ³⁺ +HO ^· +OH ^-

Hydroxyl free radicals can also trigger the chain reaction of free radicals. It is necessary to use free radical scavengers to capture active free radicals, because other antioxidants can act as free radical scavengers, so superoxide dismutase cooperates with other antioxidants. When used, a better antioxidant effect can be achieved.

The smaller the ΔE value of the color difference before and after drying, the better the dyeing fastness of the fabric after the antioxidant treatment. From the results of the examples in Table 1 and Table 2, it can be seen that the antioxidants combined with the three components are generally better than The antioxidant effect of the combination of the two components is better. The antioxidants are superoxide dismutase, chlorogenic acid and lipoic acid, or superoxide dismutase, chlorogenic acid and deoxygenase, or superoxide dismutase, sulfur When the three programs of caprylic acid and deoxygenase were used, the antioxidant effects were all ideal. Among them, the antioxidant is blended with three components of superoxide dismutase, chlorogenic acid and lipoic acid, and when the mass ratio between superoxide dismutase, chlorogenic acid and lipoic acid is 1:1:1, the The color difference ΔE value between before and after exposure is the smallest, that is, the fabric treated with antioxidants has the best color fastness to light fading.

The antioxidant of the present invention is mainly used for the antioxidant treatment of natural dye-dyed fiber products, and the related fastness of the fabric can be improved through the treatment. The present invention has the following advantages: 1. The antioxidant of the present invention has high efficiency, and after the fiber product is subjected to anti-oxidation treatment, the solarization performance of the product is greatly improved; 2. It is environmentally friendly, and the antioxidant components of the present invention are all Natural antioxidant materials, no substances harmful to human body will be produced in the process of production and use; 3. Good durability, the antioxidant of the present invention can keep the antioxidant properties of fiber products through the action of enzymes; 4. It does not affect the product style, the antioxidant of the present invention is combined with the fiber by the method of dipping or padding and plays a role, the product feel does not change before and after the action, and the style does not change; 5. The operation is simple, compared with the sol method, the present invention The antioxidant treatment method does not require complicated operations. The invention lays a foundation for improving the wearing performance of natural dye-dyed fiber products, and solves the problem of oxidative fading of natural dyes.

The above are only preferred embodiments of the present invention and are not intended to limit the present invention. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present invention shall be included in the protection of the present invention. within the range.

Claims (4)

1. improve the ecological antioxidant of natural dye dyeing fiber product photooxidative resistance, it is characterized in that, comprise superoxide dismutase, chlorogenic acid and lipoic acid or comprise superoxide dismutase, chlorogenic acid and deoxygenase or comprise Superoxide dismutase, lipoic acid, and deoxygenase, including superoxide dismutase, chlorogenic acid, and lipoic acid, in a mass ratio of 1-5:1-5:1-5; including superoxide In the case of SOD, chlorogenic acid and deoxygenase, the mass ratio between the three is 1-5:1-5:1-5; when superoxide dismutase, lipoic acid and deoxygenase are included, the three The mass ratio between them is 1-5:1-5:1-5. 2. the ecological antioxidant that improves the photooxidative resistance of natural dye dyed fiber products according to claim 1, is characterized in that, when including superoxide dismutase, chlorogenic acid and lipoic acid, the mass ratio between the three is 1 : 0.5-2: 0.5-2; when including superoxide dismutase, chlorogenic acid and deoxygenase, the mass ratio between the three is 1:0.5-2:0.5-2; including superoxide dismutase, chlorogenic acid and deoxygenase When lipoic acid and deoxygenase are used, the mass ratio between the three is 1:0.5-2:0.5-2. 3. the ecological antioxidant that improves the photooxidative resistance of natural dye dyed fiber products according to claim 1, is characterized in that, comprises superoxide dismutase, chlorogenic acid and lipoic acid, and described superoxide dismutase, The mass ratio between chlorogenic acid and lipoic acid is 1:0.5-2:0.5-2. 4. the ecological antioxidant that improves the photooxidative resistance of natural dye dyed fiber products according to claim 1, is characterized in that, comprises superoxide dismutase, chlorogenic acid and lipoic acid, and described superoxide dismutase, The mass ratio between chlorogenic acid and lipoic acid is 1:1:1.