JPH0434090A - Method for carrying out aluminum deposition foil transfer processing of fiber product and fiber product to which the same aluminum deposition foil transfer processing is applied - Google Patents

Abstract

PURPOSE:To enable the title processing method capable of preventing release or breakage of aluminum foil by printing a binder containing a thermoplastic resin and specific amount of thermosetting resin together to a natural fiber product and transferring and fixing an aluminum deposited foil using a transferring machine. CONSTITUTION:A binder consisting a thermoplastic resin and thermosetting resin of 20-40% based on the total amount of the both resin is printed to a natural fiber product by a flat type or roll type transferring machine and an aluminum deposited foil is transferred and fixed through the binder to the fiber product. Thereby transfer processing capable of preventing release between fiber and the foil is made possible. Furthermore, an acrylic acid resin emulsion used as the binder is blended with a melamine based resin used as the crosslinking agent to exhibit function capable of preventing breakage of sizing agent for ground of printing table.

Description

[Detailed Description of the Invention] Limb 1 Ll The present invention improves the transfer method of aluminum vapor-deposited foil (hereinafter referred to as "foil foil") commonly used for textile products, and transfers the foil to a product that is different from conventional products. The present invention relates to a method for adding specific functionality to existing products, and to textile products to which the method is applied.

Conventional Techniques Conventionally, when transferring foil onto textile products, the following method is used in most cases.

(1) For example, as an adhesive (binder) in a part of the process of the sewing method commonly used for textile products that requires transfer processing of foil, the composition may be acrylic, hot melt resin, ethylene vinyl acetate, or melt resin,
Acrylic resin, special urethane resin, acrylic/nylon resin, acrylic/polyester resin, etc. are stamped, air-dried, steamed, washed with water, dried, and finished to allow the dye contained in the color paste to dye the fibers. Complete. Next, the textile product and the foil are overlapped, and the foil is applied to the binder held on the surface of the fiber by applying pressure and high temperature using a flat or roll transfer machine for a few seconds to change the hue of the foil. Transfer and fix onto the surface of textile products.

(2) A required binder is stamped on the textile product that has been plain dyed, stamped, etc., and transferred using the method described in (1) above.

However, these textile products have many drawbacks, such as transferability, water resistance, dry cleaning resistance, heat resistance, abrasion resistance, workability, texture, elasticity, and discoloration of aluminum. For this reason, in commercial transactions, restrictions on dry cleaning, ironing, friction work, etc. are currently accepted as business customs. In particular, peeling between the fibers and the foil easily occurs when rubbed with a fingernail or the like.

In addition, in terms of heat resistance, pressure and heating using dry and wet irons accelerates the change in the viscosity of the binder, causing it to soften significantly. As a result, the structure of the foil adhered to the surface of the delicate product is destroyed and it gradually falls off. For this reason, these textile products cause major troubles especially during sewing, making it extremely inconvenient to commercialize neckties, clothing fabrics, and the like. Furthermore,
In addition, defective products occur because the backing of the binder stamped by the sewing method commonly used for textile products destroys the adhesive layer resin layer applied to the sewing board and adheres to the textile product.

l-In part, the present invention provides the following methods when performing foil transfer processing on textile products made of natural fibers (including silk, wool, cotton, linen, and rayon): (1) J! Prevents peeling of fiber and foil.

(2) Prevent structural destruction of the foil during pressurization and heating in dry and wet irons.

(3) Prevents destruction of the adhesive layer resin layer of the base.

It was done for that purpose.

1-1 In order to achieve the above objects, the present invention utilizes natural fibers (silk 2).
Aluminum vapor deposition is carried out on textile products made of fibers (including wool, cotton, linen, and rayon) using a flat type or roll type transfer machine under specified conditions using a binder prepared by a commonly used aluminum vapor deposition foil transfer method. It is characterized by transferring and fixing a portion of a desired color of the foil onto the surface of a textile product to add specific functionality.

When transferring and fixing aluminum vapor-deposited foil to textile products, (1) prevents separation of the fiber from the foil, (2) prevents structural destruction of the foil during pressurization and heating of dry and wet irons, and (3) Prevents destruction of the adhesive layer resin layer of the base. In (1) to (3), preparation of the binder is extremely important.

In particular, it is necessary to appropriately suppress changes in the viscosity (softening) of the thermoplastic resin due to pressurization and heating. For this purpose, a copolymer composed of a thermosetting resin such as a melamine resin or a urea resin, a synthetic resin emulsion, or a special binder is added and prepared.

For example, in acrylic hot melt resin (thermoplastic resin) and acrylic special binder (thermosetting resin).

By preparing within the range of 20 to 40%,
In other words, by composing 20 to 40% of the total amount of thermosetting resin and thermoplastic resin with thermosetting resin, the viscosity change (softening) due to pressurization and heating can be reduced to the target value (iron dry method and It is a wet type, and can be suppressed by pressing the iron's own weight, heating for 10 seconds, and reciprocating 10 times). On the other hand,
Binder normal viscosity value 35,000-40,0OOC
PS shows a tendency to decrease gradually, and transferability decreases. In order to compensate for this drawback, appropriate amounts of polymeric ethylene oxide adducts, polyacrylic acid resin polyacrylic acid amide, special nonionic activators, etc. are added as so-called thickening and fixing agents. Some thickening adhesives inhibit dry cleaning resistance. Next, by adding an appropriate amount of a urethane resin, ethylene urea resin, melamine resin, ethylene imine compound, etc. as a crosslinking agent, the adhesive layer of the base is prevented from passing through the binder by promoting resin polycondensation. contribute to the conservation of Furthermore, loss of the binder during the printing process is suppressed and the fastness after transfer is improved.

Furthermore, whether foil transfer is possible or not depends largely on the viscosity adjustment of the binder. For this purpose, an appropriate amount of an acrylic acid resin-containing emulsion, an acrylic special emulsion, etc. is added as a viscosity modifier.

At this time, the prepared viscosity of the binder is 4,000 to 6,0
OOCPS is preferred. The amount of binder dropped on the surface of the fibers and its shape ensure the integrity of the adhesive layer resin on the stand, expressiveness of fine lines of foil, prevention of peeling of fibers and foil, heat resistance, transferability, workability. It has a large effect on sex, etc.

To explain this in more detail with reference to Figure 1, as shown in Figure 1a, textile products made of natural fibers (including silk, wool, cotton, linen, and rayon) are Prepare colored paste for napkins. Next, to prepare a binder, a special acrylic binder (thermosetting resin) is added to the water-based acrylic resin (thermoplastic resin). Next, acrylic acid ester toilet fat, polyacrylic acid resin, etc. are added as a thickening agent. Next, a melamine resin or the like is added as a crosslinking agent, and then as a viscosity adjusting agent for the binder,
Acrylic acid resin emulsion, acrylic special emulsion, etc. are added to complete the preparation of the required binder.

At this time, PH6-7 is desirable. First, the above-mentioned binder is used to mark a textile product to which a stamp transfer process is applied by a conventional stamping method. At this time, gauze mesh #7o~
80, scale hardness 70, scale rubbed once. Next, a mark is made using colored paste for pastry, completing the mark making step a. The textile products that have completed marking step a undergo the usual post-processing steps of air drying, steaming, water washing, drying, and finishing, as shown in Figure 1 b1 to b, to make the fibers of the dyes contained in the color paste. Complete the dyeing (dyeing process A). Next, in order to maintain the adhesion of the binder held on the surface of the fibers before proceeding to the transfer process shown in FIG. The process (FIG. 1B) is performed. next,
Layer foil foil and textile products.

Temperature: 140°C to 150°C, pressure: 0.
3-0.4 kg/cd, time 3 seconds to 5 seconds, temperature 150°C to 160°C, pressure 3t, speed 15 using a halo type transfer machine.
By processing at m~20 m/min, the colored portion of the foil is transferred and fixed onto the predetermined surface of the textile product, and the entire process is completed. Note that the foil used has a five-layer structure of resin, aluminum fine particles, dye, resin, and release film.

In addition, methacrylic acid ester copolymer, trade name, PT, WAX, special polymer compound, trade name, Polyts Resin CF, acrylic resin, trade name, New Dyne KH is used as the adhesive layer resin for the base. By using it, destruction of the resin layer can be suppressed synergistically.

Next, we will describe each side tested by the method of the present invention: (Example 1) Materials: 12 momme weight 14 bladed twill habutae, 14i equivalent wool flat, Nasen base upholstery Layer resin PT, WAX, polytech resin, binder made by GLI: ・Bronze binder 5P-36650g (thermoplastic resin) ・Bronze binder 4700 200g (thermosetting resin) ・Thickening adhesive CB-780g ・Viscosity modifier extract Tender YH 50g total 000g Use the above binder and ordinary colored paste for printing, mark, go through the necessary steps, bake at 140"C for 4 minutes, and use a flat type transfer machine or roll type transfer machine to print the stamp as described above. As a result of processing under these conditions, it was confirmed that specific functionality was added.

(Example 2) Materials: Silk/rayon mixed woven product, wool/rayon mixed woven product, cotton/rayon mixed woven product, hemp/rayon mixed woven product Binder: ・Bronze binder 5P-36 ・Bronze binder 4700 ・CB-7 ・Extract Tender YH 50g 00g 30g 00g Total 1000g As a result of marking and transfer processing as in Example 1,
It was confirmed that specific functionality was added.

(Example 3) Materials: Rayon fabric, cotton fabric, linen fabric, (textile products that have been plain dyed, stamped, etc.) Preparation of binder: - Bronze binder 5P-36500g - Bronze binder 4700 300g - CB-7100g - Extender YH 80g ・Okizar M Conch 20g total
1000 g of the above binder was stamped, baked at 140° C. for 4 minutes, and transferred as in Example 1. As a result, it was confirmed that specific functionality was added.

As mentioned above, the present invention provides a method for transferring fibers and foils by modifying the foil transfer method commonly used for textile products made of natural fibers (including N, wool, cotton, linen, and rayon). Specific functionality has been added, such as preventing the peeling of foils, preventing structural damage to foils during pressurization and heating during dry and wet ironing, and preventing damage to adhesive layer resin on lathe tables. For this reason, we can diversify products, prevent troubles during sewing,
The role it plays in stabilizing quality is extremely significant.

[Brief explanation of the drawing]

FIG. 1 shows a process diagram of aluminum-deposited foil transfer processing for textile products according to the present invention. A... Making process, a... Marking process, b... Post-processing process, b□... Air drying process, b2... Steaming process, b,... Water washing process, b, ...drying process, b
s... Finishing process, B... Baking treatment, C...
Transfer process. Figure 1

Claims (1)

[Claims] 1. In an aluminum-deposited foil transfer processing method for textile products, in which a binder is stamped on a textile product made of natural fibers, and an aluminum-deposited foil is transferred and fixed to the binder, the binder contains 20 to 40% of the total amount of thermosetting resin and thermoplastic resin is composed of thermosetting resin, and the aluminum vapor-deposited foil is transferred to the textile product via the binder using a flat type or roll type transfer machine. A method for improving transfer processing of aluminum vapor-deposited foil for textile products, which is characterized by fixation. 2. A textile product in which aluminum vapor-deposited foil is transferred and fixed with a binder composed of thermosetting resin in an amount of 20 to 40% based on the total amount of thermosetting resin and thermoplastic resin.