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A kind of non-iridescent structural color fabric and preparation method thereof

A structural color and fabric technology, applied in animal fibers, plant fibers, textiles and papermaking, etc., can solve the problems of limited methods, complicated operations, and high equipment requirements, and achieve the effects of easy control of conditions, low reaction temperature, and wide adaptability.

Active Publication Date: 2021-11-02
SUZHOU UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] In the above method of imparting structural color to fabrics, the equipment requirements are high, the operation is complicated, and the method is limited

Method used

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine
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  • A kind of non-iridescent structural color fabric and preparation method thereof
  • A kind of non-iridescent structural color fabric and preparation method thereof
  • A kind of non-iridescent structural color fabric and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0038] Dissolve 0.28 g of dopamine hydrochloride powder in 50 mL of deionized water, then add 0.034 g of anhydrous copper chloride to adjust the pH to 8.5. Add 0.1g of 30% hydrogen peroxide and 0.56g of silane coupling agent KH550 into the dopamine solution, stir well and set aside. Draw 3mL of the solution prepared above, and add it to a plastic Petri dish covered with silk power textiles with a diameter of about 5cm, so that the liquid completely covers the surface of the fabric. Cover the plastic petri dishes and place them in a constant temperature vacuum oven (at a temperature of 30°C) for different time periods (1h, 1.5h, 2h, 3h) respectively, and use a syringe to suck off the unreacted liquid. The treated sample is placed in a constant temperature vacuum oven (at a temperature of 30° C.), and after drying, the structural color can be obtained on the surface of the fabric.

[0039] figure 1 a-d are the optical photographs of the fabrics obtained after reaction for 1h, ...

Embodiment 2

[0041]0.2 g of gallic acid powder was added to 40 mL of deionized water, and 10 mL of ethanol was added to aid dissolution, and then 0.034 g of anhydrous copper chloride was added to adjust its pH value to 8.5. Add 0.1g of 30% hydrogen peroxide and 0.2g of silane coupling agent KH550 into the gallic acid solution, stir well and set aside. Draw 3mL of the solution prepared above, and add it to a plastic Petri dish covered with wool fabric with a diameter of about 5cm, so that the liquid completely covers the surface of the fabric. Cover the plastic petri dish and place it in a constant temperature vacuum oven (at a temperature of 25° C.) to react for different time respectively, and use a syringe to suck off the unreacted liquid. The treated sample is placed in a constant temperature vacuum oven (temperature is 25° C.), and after drying, the structural color can be obtained on the surface of the fabric. Among them, when reacting for 1h, 2h, 3h and 4h, the structural colors of ...

Embodiment 3

[0043] Add 0.3g of ferulic acid powder into 40mL of deionized water, and add 10mL of ethanol to aid dissolution, then add 0.08g of ferric chloride hexahydrate to adjust its pH value to 8.2. Add 0.08g of ferric chloride hexahydrate, 0.1g of 30% hydrogen peroxide and 0.2g of silane coupling agent KH550 into the ferulic acid solution, stir well and set aside. Draw 3mL of the solution prepared above, and add it to a plastic Petri dish covered with cotton fabric with a diameter of about 5cm, so that the liquid completely covers the surface of the fabric. Cover the plastic petri dish and place it in a constant temperature vacuum oven (at a temperature of 40° C.) to react for different time respectively, and use a syringe to suck off the unreacted liquid. The treated sample is placed in a constant temperature vacuum oven (at a temperature of 40° C.), and after drying, the structural color can be obtained on the surface of the fabric. Among them, when reacting for 1h, 2h, 3h and 4h, ...

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Abstract

The invention provides a method for preparing non-iridescent structural color on the surface of fabrics, comprising the following steps: dissolving polyphenolic compounds, variable valence metal ions, oxidizing agents and silane coupling agents in water, and mixing to obtain a polyphenolic solution; Subsequently, soak the fabric in the above solution, react for a period of time at a certain temperature in an aerobic environment, remove the residual liquid, and dry it in a vacuum oven to obtain a fabric with structural color. The invention discloses a fabric with different structural colors obtained by the above preparation method. The preparation method is simple, the required time is short, the fabric is green and environmentally friendly, the prepared structural color does not need any dye, the color is uniform, and it has good application prospects.

Description

technical field [0001] The invention relates to the field of textiles, in particular to a non-iridescent structured colored fabric and a preparation method thereof. Background technique [0002] Since the development of human civilization, the demand for beauty has been increasing day by day. In textiles, it has developed from animal fur and leaves to contemporary fashion with various styles and bright colors. The generation of color includes pigment coloring and structural coloring, in which pigment coloring is derived from the selective absorption of various dyes and pigments to specific wavelengths of light and reflects light of other wavelengths; while structural coloring is the use of special physical structures to pass light The selective reflection of the produces color. The mechanism of structural color generation includes thin film interference, diffraction effect of periodic structure, and selective scattering. Among them, thin-film interference includes single-l...

Claims

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine
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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): D06M15/37D06M101/12D06M101/10D06M101/06D06M101/34
CPCD06M15/37D06M2101/06D06M2101/10D06M2101/12D06M2101/34
Inventor 邢铁玲朱小威闫彪彪周青青颜小洁陈国强
Owner SUZHOU UNIV