阅读说明：本技术 具有高发色强度的红光蓝色分散染料 (Red-blue disperse dye with high color development intensity ) 是由 唐立勇 刘树 蒋杭平 于 2021-06-21 设计创作，主要内容包括：具有高发色强度的红光蓝色分散染料,它涉及染料及其制备技术领域。它由以下重量份数的原材料组成：红光蓝色酞菁原料100-150份、PH稳定剂10-20份、分子分散稳定剂10-20份、防氧化剂5-10份、工业用蒸馏水20-30份、防反光添加剂2-5份。它的组成简单,由精选的红光蓝色酞菁原材料与能够提高酸碱度稳定性的添加剂、染料成型分子保护剂组成,并通过精密的加工步骤,为成型的红光蓝色染料提供高稳定性,且使其具有高发色强度,保证染料后期成型的正常使用,不容易收到氧化及其它外界因素干扰,方便保存且使用寿命较长。(A red light blue disperse dye with high color development intensity relates to the technical field of dyes and preparation thereof. The composite material consists of the following raw materials in parts by weight: 100-150 parts of red light blue phthalocyanine raw material, 10-20 parts of PH stabilizer, 10-20 parts of molecular dispersion stabilizer, 5-10 parts of antioxidant, 20-30 parts of industrial distilled water and 2-5 parts of anti-reflection additive. The red light blue phthalocyanine dye has simple composition, consists of a selected red light blue phthalocyanine raw material, an additive capable of improving the stability of pH value and a dye forming molecular protective agent, provides high stability for the formed red light blue dye through precise processing steps, has high color development intensity, ensures the normal use of the later forming of the dye, is not easy to receive the interference of oxidation and other external factors, is convenient to store and has longer service life.)

1. The red light blue disperse dye with high color development intensity is characterized by comprising the following raw materials in parts by weight: 100-150 parts of red light blue phthalocyanine raw material, 10-20 parts of PH stabilizer, 10-20 parts of molecular dispersion stabilizer, 5-10 parts of antioxidant, 20-30 parts of industrial distilled water and 2-5 parts of anti-reflection additive.

2. A red-blue disperse dye with high color development intensity is characterized in that the preparation method comprises the following steps: a. adding a quantitative red light blue phthalocyanine raw material into a reaction kettle prepared from a high-color-developing dye, adding a small amount of industrial distilled water into the reaction kettle for mixing, heating the reaction kettle until smoke floats, measuring the temperature of mixed liquid in the reaction kettle, and stopping heating when the temperature reaches 70-80 ℃; b. standing the reaction kettle, cooling to 35-45 ℃, adding a PH stabilizer, and reheating the mixed liquid to boiling; c. adding a proper amount of molecular dispersion stabilizer and a proper amount of antioxidant when the mixed liquid is boiled, uniformly stirring for a period of time, and cooling from place to place in a reaction kettle; d. and cooling the mixed liquid to normal temperature to obtain the disperse dye with high color development strength.

3. The disperse red-blue dye with high chromophoric intensity according to claim 1, characterized in that it consists of the following raw materials in parts by weight: 100 parts of red light blue phthalocyanine raw material, 10 parts of PH stabilizer, 10 parts of molecular dispersion stabilizer, 5 parts of antioxidant, 20 parts of industrial distilled water and 2 parts of anti-reflection additive.

4. The disperse red-blue dye with high chromophoric intensity according to claim 1, characterized in that it consists of the following raw materials in parts by weight: 120 parts of red light blue phthalocyanine raw material, 15 parts of PH stabilizer, 15 parts of molecular dispersion stabilizer, 8 parts of antioxidant, 25 parts of industrial distilled water and 4 parts of anti-reflection additive.

5. The disperse red-blue dye with high chromophoric intensity according to claim 1, characterized in that it consists of the following raw materials in parts by weight: 150 parts of red light blue phthalocyanine raw material, 20 parts of PH stabilizer, 20 parts of molecular dispersion stabilizer, 10 parts of antioxidant, 30 parts of industrial distilled water and 5 parts of anti-reflection additive.

6. The red-blue disperse dye with high chromophoric intensity according to claim 2, characterized in that: and c, in the step a, the color of the floating smoke in the reaction kettle is light purple, and an industrial thermometer is adopted to measure the temperature in the reaction kettle.

7. The red-blue disperse dye with high chromophoric intensity according to claim 2, characterized in that: and c, uniformly stirring for 20-30 min.

Technical Field

The invention relates to the technical field of dyes and preparation thereof, in particular to a red-light blue disperse dye with high color development intensity.

Background

Dyes are colored substances. But the colored substance is not necessarily a dye. The dye must be capable of adhering a certain color to the fiber and be resistant to falling off and discoloration. Dyes are usually soluble in water and some require a mordant to enable the dye to adhere to the fiber. Dyes and pigments absorb some wavelengths of light and therefore appear colored. Compared with dyes, pigments are not soluble in water and do not adhere to other substances. Archaeological data show that staining techniques have been in india and the middle east for over five thousand years. The dyes at the time were derived from animals, plants or minerals and were rarely treated. Most dyes come from the plant kingdom (e.g., roots, berries, bark, leaves, and wood of plants), but such dyes are rarely used extensively in commerce.

Most of the existing red light blue phthalocyanine dyes used for industrial manufacture are preferentially used in the field of inkjet coating work, while the color development intensity of red light blue fuel used in the market at present is unstable, and because the control on the acidity and alkalinity in the preparation process is poor, when the fuel is molded and used at the later stage, most of the color changes of the red light blue color development dispersed fuel easily occur due to the irradiation of different light intensities or the influence of oxygen in the air, the normal use is influenced, and the loss caused by the need of removing color and coating again of an article coated with the fuel is easily caused, so that aiming at the defects, the red light blue dispersed dye with high color development intensity is provided.

Disclosure of Invention

The invention aims to provide a red light blue disperse dye with high color development intensity, which has simple composition, consists of selected red light blue phthalocyanine raw materials, an additive capable of improving the stability of pH value and a dye forming molecular protective agent, provides high stability for the formed red light blue dye through precise processing steps, has high color development intensity, ensures the normal use of the dye in the later forming, is not easy to be interfered by oxidation and other external factors, is convenient to store, has longer service life, has higher creativity, is suitable for popularization, production and use, and is suitable for the different dye coloring industrial fields.

In order to achieve the purpose, the invention adopts the following technical scheme: the composite material consists of the following raw materials in parts by weight: 100-150 parts of red light blue phthalocyanine raw material, 10-20 parts of PH stabilizer, 10-20 parts of molecular dispersion stabilizer, 5-10 parts of antioxidant, 20-30 parts of industrial distilled water and 2-5 parts of anti-reflection additive;

the preparation method comprises the following steps: a. adding a quantitative red light blue phthalocyanine raw material into a reaction kettle prepared from a high-color-developing dye, adding a small amount of industrial distilled water into the reaction kettle for mixing, heating the reaction kettle until smoke floats, measuring the temperature of mixed liquid in the reaction kettle, and stopping heating when the temperature reaches 70-80 ℃; b. standing the reaction kettle, cooling to 35-45 ℃, adding a PH stabilizer, and reheating the mixed liquid to boiling; c. adding a proper amount of molecular dispersion stabilizer and a proper amount of antioxidant when the mixed liquid is boiled, uniformly stirring for a period of time, and cooling from place to place in a reaction kettle; d. and cooling the mixed liquid to normal temperature to obtain the disperse dye with high color development strength.

And c, in the step a, the color of the floating smoke in the reaction kettle is light purple, and an industrial thermometer is adopted to measure the temperature of the interior of the reaction kettle, so that the temperature of the interior of the reaction kettle can be uniformly measured.

The time for uniform stirring in the step c is 20-30min, so that the sufficient uniform mixing time can be ensured, and the stability of the high-color-development red-light blue dye is improved.

The working principle of the invention is as follows: the PH stabilizer is added on the basis of the original red light blue phthalocyanine raw material, the acid-base stability of the PH value in the dye is improved, the high protection performance is provided in the dye forming process through the molecular dispersion stabilizer and the antioxidant, the high oxidation resistance is provided for the later use of the dye, and the normal color development of the red light blue dye is protected.

After the technical scheme is adopted, the invention has the beneficial effects that: the red light blue phthalocyanine dye has simple composition, consists of a selected red light blue phthalocyanine raw material, an additive capable of improving the stability of pH value and a dye forming molecular protective agent, provides high stability for the formed red light blue dye through precise processing steps, has high color development intensity, ensures the normal use of the later forming of the dye, is not easy to be interfered by oxidation and other external factors, is convenient to store, has longer service life, has higher creativity, is suitable for popularization, production and use, and the preparation method is suitable for different dye coloring industrial fields.

Detailed Description

Example one

The technical scheme adopted by the specific implementation mode is as follows: the composite material consists of the following raw materials in parts by weight: 100 parts of red light blue phthalocyanine raw material, 10 parts of PH stabilizer, 10 parts of molecular dispersion stabilizer, 5 parts of antioxidant, 20 parts of industrial distilled water and 2 parts of anti-reflection additive;

the preparation method comprises the following steps: a. adding a quantitative red light blue phthalocyanine raw material into a reaction kettle prepared from a high-color-developing dye, adding a small amount of industrial distilled water into the reaction kettle for mixing, heating the reaction kettle until smoke floats, measuring the temperature of mixed liquid in the reaction kettle, and stopping heating when the temperature reaches 70 ℃; b. standing the reaction kettle, cooling to 35 ℃, adding a pH stabilizer, and reheating the mixed liquid to boiling; c. adding a proper amount of molecular dispersion stabilizer and a proper amount of antioxidant when the mixed liquid is boiled, uniformly stirring for a period of time, and cooling from place to place in a reaction kettle; d. and cooling the mixed liquid to normal temperature to obtain the disperse dye with high color development strength.

And c, in the step a, the color of the floating smoke in the reaction kettle is light purple, and an industrial thermometer is adopted to measure the temperature of the interior of the reaction kettle, so that the temperature of the interior of the reaction kettle can be uniformly measured.

The time for uniform stirring in the step c is 20-30min, so that the sufficient uniform mixing time can be ensured, and the stability of the high-color-development red-light blue dye is improved.

Example two

The present embodiment is different from the first embodiment in that: the composite material consists of the following raw materials in parts by weight: 120 parts of red light blue phthalocyanine raw material, 15 parts of PH stabilizer, 15 parts of molecular dispersion stabilizer, 8 parts of antioxidant, 25 parts of industrial distilled water and 4 parts of anti-reflection additive; the preparation method comprises the following steps: a. adding a quantitative red light blue phthalocyanine raw material into a reaction kettle prepared from a high-color-developing dye, adding a small amount of industrial distilled water into the reaction kettle for mixing, heating the reaction kettle until smoke floats, measuring the temperature of mixed liquid in the reaction kettle, and stopping heating when the temperature reaches 75 ℃; b. standing the reaction kettle, cooling to 40 ℃, adding a pH stabilizer, and reheating the mixed liquid to boiling; c. adding a proper amount of molecular dispersion stabilizer and a proper amount of antioxidant when the mixed liquid is boiled, uniformly stirring for a period of time, and cooling from place to place in a reaction kettle; d. and cooling the mixed liquid to normal temperature to obtain the disperse dye with high color development strength.

The composition and preparation method of other raw materials are the same as those in the first embodiment.

EXAMPLE III

The present embodiment is different from the first embodiment in that: the composite material consists of the following raw materials in parts by weight: 150 parts of red light blue phthalocyanine raw material, 20 parts of PH stabilizer, 20 parts of molecular dispersion stabilizer, 10 parts of antioxidant, 30 parts of industrial distilled water and 5 parts of anti-reflection additive;

the preparation method comprises the following steps: a. adding a quantitative red light blue phthalocyanine raw material into a reaction kettle prepared from a high-color-developing dye, adding a small amount of industrial distilled water into the reaction kettle for mixing, heating the reaction kettle until smoke floats, measuring the temperature of mixed liquid in the reaction kettle, and stopping heating when the temperature reaches 80 ℃; b. standing the reaction kettle, cooling to 45 ℃, adding a pH stabilizer, and reheating the mixed liquid to boiling; c. adding a proper amount of molecular dispersion stabilizer and a proper amount of antioxidant when the mixed liquid is boiled, uniformly stirring for a period of time, and cooling from place to place in a reaction kettle; d. and cooling the mixed liquid to normal temperature to obtain the disperse dye with high color development strength.

The composition and preparation method of other raw materials are the same as those in the first embodiment.

After the technical scheme is adopted, the invention has the beneficial effects that: the red light blue phthalocyanine dye has simple composition, consists of a selected red light blue phthalocyanine raw material, an additive capable of improving the stability of pH value and a dye forming molecular protective agent, provides high stability for the formed red light blue dye through precise processing steps, has high color development intensity, ensures the normal use of the later forming of the dye, is not easy to be interfered by oxidation and other external factors, is convenient to store, has longer service life, has higher creativity, is suitable for popularization, production and use, and the preparation method is suitable for different dye coloring industrial fields.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent substitutions made by those skilled in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention without departing from the spirit and scope of the technical solutions of the present invention.