TWI618832B - Method for producing colored high-strength fiber material and its finished product - Google Patents

Abstract

The invention provides a method for producing a colored high-strength fiber material, which includes pre-dyeing treatment, electroplating dyeing, and post-dyeing treatment. The high-strength fiber material is surface-treated with a solvent and the surface of the high-strength fiber material is destroyed. A pre-treated substrate can be obtained, the pre-treated substrate can be electroplated, and the surface of the pre-treated substrate can be filled with metal ions to obtain a dyed substrate, and the surface of the dyed substrate can be removed. The colored high-strength fiber material is formed by removing the chemicals remaining in the electroplating and dyeing step, and thereby, the present invention can provide a colored high-strength fiber that takes into account the colorful color appearance of the high-strength fiber material, low manufacturing cost, and quality after dyeing. Method of making materials.

Description

Method for producing colored high-strength fiber material and its finished product

The invention relates to a fiber product, in particular to a method for manufacturing a colored high-strength fiber material and a finished product thereof.

Generally, high-strength composite fibers are mostly dark. For example, carbon fibers are black. Due to their primary colors and material characteristics, high-strength composite fibers are more difficult to dye.

In order to produce composite fibers with different appearance colors, a color masterbatch can be added in the manufacturing process, but this method will be limited by the background color of the raw material. For example, the color of aramid fibers after dyeing is limited to blue, red, Although black or orange can be dyed by adding a masterbatch, the manufacturing cost is relatively high.

On the other hand, inorganic fibers such as glass fibers or basalt fibers, due to the difficulty of surface composition, must be processed and colored with dyes, and cannot be dyed with masterbatches. However, because colors exist only on the surface, It is easy to cause discoloration after shaping or temperature rise.

In order to solve the shortcomings of the existing high-strength composite material fibers that are easy to fade after dyeing and the dyeing cost is relatively high, the main purpose of the present invention is to propose a method for manufacturing a colored high-strength fiber material that can solve the existing technical problems. And its finished products.

A method for manufacturing a colored high-strength fiber material, which is proposed by the present invention to solve the previous technical problems, includes: pre-dyeing treatment: surface treatment of the high-strength fiber material with a solvent, and destruction of the surface of the high-strength fiber material to obtain Base material after pre-treatment; electroplating dyeing: the base material after pre-treatment is electroplated, and the surface of the base material after pre-treatment is filled with metal ions to obtain a base material after dyeing; and post-dyeing treatment: the base material after dyeing The surface of the material is removed to remove the chemicals remaining in the plating and dyeing step, thereby forming a colored high-strength fiber material.

In the method for manufacturing a colored high-strength fiber material, in the pre-dyeing treatment step, the high-strength fiber material is subjected to acid degreasing and organic solvent degreasing, and then the surface solvent is washed with water, the electrolytic degreasing is performed, and the water washing and cleaning are performed again. The surface solvent is then immersed in acid and washed again to obtain the pretreated base material. In the electroplating and dyeing step, the pretreated base material is acid-base neutralized, and then the neutralized pretreated base material is used. Performing the first electroplating, so that the surface of the substrate after the pretreatment can be filled by ion exchange to dye, and then immersed in acid after washing with water, and then washed with water, and then subjected to the second electroplating to obtain the dyed substrate; And in the post-dyeing treatment step, the colored base material is formed by subjecting the dyed substrate to water washing, gloss impregnation, conversion film treatment, water washing and other processes to remove the surface, and then adding a surface agent and drying.

In the method for manufacturing a colored high-strength fiber material, the first plating and the second plating in the electroplating and dyeing step use an aqueous solution as an electrolyte.

In the manufacturing method of the colored high-strength fiber material, in the pre-dyeing treatment step, the high-strength fiber material is washed and subjected to primer coating to obtain the pre-treated substrate; in the electroplating and dyeing step, the Bake and heat the metal to be plated in a vacuum to form a vapor in the space, and generate a metal thin film on the surface of the substrate after the pre-treatment to generate the dyed substrate; and in the post-dyeing processing step, the The dyed substrate is washed with water and dried to form the colored high-strength fiber material.

A colored high-strength fiber material proposed by the present invention to solve the prior technical problems includes: a fiber material substrate; and a colored layer, which is electroplated and bonded to the outside of the fiber material substrate.

In the colored high-strength fiber material, the fiber material substrate may be made of carbon fiber, glass fiber, or aramid fiber.

The improved efficacy obtained by the technical means of the present invention is: surface dyeing of high-strength fiber materials by electroplating technology process, so that high-strength fiber materials are more likely to have colorful color appearance, and because metal ions are directly performed on the surface of fiber materials Exchange to form the required color, so it is not necessary to add a color masterbatch in the fiber material manufacturing process, which can effectively reduce the cost of dyeing. In addition, because metal ions are directly bound to the surface of the high-strength fiber material, it is not easy to fade after dyeing, so , Can take into account the advantages of colorful colors, low manufacturing costs, and quality after dyeing, so that high-strength fiber materials have advantages such as high added value, and can increase the number of related products Sample application.

10‧‧‧ fiber material substrate

20‧‧‧colored layer

FIG. 1 is a schematic flowchart of a manufacturing method according to a first preferred embodiment of the present invention.

FIG. 2 is a schematic diagram of a manufacturing method according to a second preferred embodiment of the present invention.

FIG. 3 is a schematic cross-sectional view of a colored high-strength fiber material made according to a preferred embodiment of the present invention.

In order to understand the technical features and practical effects of the present invention in detail, and can be implemented according to the contents of the description, the preferred embodiment shown in the drawings is further described in detail as follows:

The manufacturing method provided by the present invention uses electroplating technology to dye high-strength fiber materials. Electroplating technology is an electrodeposition process. It attaches metal ions to the surface of the substrate, and the surface of the substrate is plated with a metal plating layer to change the substrate. Surface properties.

Electroplating technology can be used to give the substrate a glossy appearance or high abrasion characteristics on the metal surface. The present invention aims to increase the appearance color of high-strength fiber materials, and high-strength fiber materials such as carbon fibers or aramid fibers Such as fiber materials, the present invention uses vacuum plating (Vacuum plating) or electroless plating (Electroless plating) to dye high-strength fiber materials.

Please refer to FIG. 1, the process of the electroless plating method provided by the present invention includes: pre-dyeing treatment: placing high-strength fiber material in a first cylinder tank or vacuum chamber for acid degreasing and organic solvent degreasing, and then washing the table with water The surface solvent, then electrolytic degreasing, and then water washing and cleaning the surface solvent, and then immersed in acid and washed with water again to obtain the pre-treated substrate. Among the high-strength fiber materials after the pre-treatment, the coupling agent and The oil has been removed and the surface has been slightly damaged by immersion in acid, so the subsequent dyeing process can be easier to color; electroplating and dyeing: the pre-treated substrate is placed in a second barrel or vacuum chamber Neutralize by acid and alkali to avoid the residual solvent from the surface pretreatment to affect the dyeing, and then put the neutralized substrate into the third barrel or vacuum chamber for the first plating. The third barrel or vacuum chamber contains metal Color sources such as ions, oxidized metals, or chemicals, so that the surface of the substrate after the pretreatment can be filled with ion exchange to dye, and then washed with water, soaked in acid, washed with water, and then subjected to a second plating dyeing. After the dyed substrate is obtained, it is preferable that the first plating and the second plating use an aqueous solution as an electrolyte. Among them, the electroless plating process can be used to produce nickel, cobalt, palladium, platinum, copper, and gold. The silver and the plating layer containing the metal alloy can make the dyed substrate show the color of the metal alloy plating layer, and the increase and decrease of the power applied in the process can control the adhesion of ions to the substrate after the pretreatment. Thickness of the surface to achieve the effect of controlling the color depth of the substrate after dyeing; post-dyeing treatment: the surface of the dyed substrate is washed with water, gloss impregnation, conversion film treatment, water washing and other processes to remove the surface to remove the plating dyeing step Residues in the drug are added to the surface and dried to form a colored high-strength fiber material.

Please refer to FIG. 2. The vacuum evaporation gold plating method provided by the present invention includes the following steps: pre-dyeing treatment: washing high-strength fiber material and performing primer coating, then Obtaining a pretreated substrate; electroplating and dyeing: baking and heating the metal to be plated in a vacuum to form a vapor in the space, and forming a metal thin film on the surface of the substrate after the pretreatment to generate a dyed substrate; Post-dyeing treatment: The dyed substrate is washed with water and dried to form a colored high-strength fiber material.

Please refer to FIG. 3, the colored high-strength fiber material dyed by the electroless plating method or the vacuum evaporation gold plating method according to the present invention includes a fiber material substrate 10 and a colored layer 20, wherein the fiber material substrate 10 It can be made of carbon fiber, glass fiber, or aramid fiber. The coloring layer 20 is electroplated and bonded to the outside of the fiber material substrate 10. The thickness of the coloring layer 20 can be controlled by different powers given during the electroplating and dyeing process.

Claims (8)

A method for manufacturing a colored high-strength fiber material includes: pre-dyeing treatment: surface treatment of the high-strength fiber material with a solvent and destruction of the surface of the high-strength fiber material to obtain a pre-treated substrate; electroplating dyeing: After the pretreated substrate is subjected to electroplating treatment, and the surface of the pretreated substrate is filled with metal ions to obtain a dyed substrate; and after the dyeing treatment: the surface of the dyed substrate is removed to remove the electroplating dyeing. Residues in the step form a colored high-strength fiber material. The method for producing a colored high-strength fiber material according to claim 1, wherein in the pretreatment step of dyeing, the high-strength fiber material is subjected to acid degreasing and organic solvent degreasing, and then the surface solvent is washed and washed with water, and then electrolytic degreasing is performed. The surface solvent after the pre-treatment is obtained by washing the surface solvent with water again, and then immersing the acid and washing again. In the electroplating and dyeing step, the pre-treated substrate is acid-base neutralized, and then the neutralized After the treatment, the substrate is firstly plated, so that the surface of the substrate after the pretreatment can be filled by ion exchange for dyeing, and then washed with water, dipped in acid, and then washed with water, and then subjected to a second plating dyeing to obtain the dyeing. After the substrate; and in the post-dyeing treatment step, the dyed substrate is subjected to surface washing with water washing, gloss impregnation, conversion film treatment, water washing, etc., and then the surface coupling agent is added and dried to form the color high. Strength fiber material. The method for manufacturing a colored high-strength fiber material according to claim 2, wherein the first plating and the second plating in the plating and dyeing step use an aqueous solution as an electrolyte. The method for manufacturing a colored high-strength fiber material as described in claim 1, wherein in the pre-dyeing treatment step, the high-strength fiber material is washed and subjected to undercoating to obtain the substrate after the pre-treatment; in a plating dyeing step In the process, the metal to be plated is baked and heated in a vacuum to form a vapor in the space, and a metal thin film is formed on the surface of the substrate after the pretreatment, so that the substrate after the dyeing is generated; The colored, high-strength fiber material is formed by washing and drying the dyed substrate with water. A colored high-strength fiber material is manufactured by the method of claim 1, and includes: a fiber material substrate; and a colored layer, which is electroplated and bonded to the outside of the fiber material substrate. The colored high-strength fiber material according to claim 5, wherein the fiber material substrate can be made of carbon fiber. The colored high-strength fiber material according to claim 5, wherein the fiber material substrate can be made of glass fiber. The colored high-strength fiber material according to claim 5, wherein the fiber material substrate can be made of aramid fiber.