KR20040029344A - Ink for heat insulating antibacterial ceramic print and preparation method thereof - Google Patents

Abstract

PURPOSE: An ink for heat insulating antibacterial ceramic print and its preparation method are provided, to improve heat insulation, antibacterial effect and far infrared ray emitting effect. CONSTITUTION: The ink is obtained by mixing and dispersing a ceramic mixture which comprises alumina, vermiculite, elvan and silver and has a particle size of 20-200 nm, a fluid vehicle, a solvent and an auxiliary.

Description

Insulating antibacterial ceramic printing ink and manufacturing method thereof.

Alumina and vermiculite are used as insulation materials, high strength structural materials, chemicals, heat-resistant materials or dental materials, and insulation materials.It removes harmful substances, decomposes heavy metals, dissolves minerals, regulates water quality, antiseptic action, and far-infrared rays. Elvan, which is widely used in health, medicine, and building materials for its functions such as release, and silver, which is characterized by strong sterilizing power, is used in antibacterial applications, but problems such as insulation, antibacterial, and freshness remain in the packaging field. .

In order to make the alumina, vermiculite, elvan, and silver of the present invention having a function as an ink, the alumina, vermiculite, elvan, and silver should be finely powdered in a size of 20 to 200 nanometers. It is a technical problem of the present invention to produce a printing ink by mixing and dispersing the mixture with a vehicle and an auxiliary agent.

1 is a process diagram of ink for thermal insulation antibacterial ceramic printing

<Description of Signs of Main Parts in Drawings>

(1) insulating antibacterial ceramic fine powder (2) dissolution (3) mixture (4) dispersion (5) conditioning

(6) Inspection

The composition of the heat-insulating antimicrobial ceramic printing ink of the present invention is composed of a mixed fine powder ceramic of alumina, vermiculite, elvan, silver as a pigment, and a vehicle, oil, solvent, and auxiliaries which have fluidity for transferring to the printing surface. .

The fine powder ceramics of alumina, vermiculite, elvan, and silver should be fine powder with a size of 20 to 200 nanometers.

The above-mentioned vehicle (Vanish) is used to form a phase on the printed object by transferring on a printing machine, the resin is a rosin-based resin is used as a rosin-modified phenol resin, among the rosin resins, cured rosin, rosin ester, rosin-modified rosin It also contains modified maleic acid resins. The main raw materials for rosin-modified phenolic resins are rosin, polyhydric alcohol, phenols and aldehydes. Rosin phenolic resin synthesizes rosin ester in the esterification reaction of rosin and polyhydric alcohol, phenolic resin (resol resin) in methylolation and condensation reaction of phenol and formaldehyde, and rosin modification in addition reaction of rosin ester and phenolic resin. A varnish is manufactured by resin which synthesize | combined phenol resin.

The above-mentioned fats and oils use linseed oil, Tung oil (China wood oil) and dry oil of Perilla oil, and the number of double bonds affecting the drying of the ink is between 140 and 200. use.

The above solvent is a hydrocarbon solvent, and the petroleum hydrocarbon component is a solvent having a boiling point of 240 to 330 with 60% of Paraffine, 15 to 18% of Aromatic, and 30% of Napthene.

Said adjuvant uses a solvent combound and a dryer.

The manufacturing process of the heat-insulating antibacterial ceramic printing ink consists of one step dissolution, two steps mixing, three steps dispersion, four steps adjustment, and five steps inspection.

The one-step dissolution is a vehicle manufacturing process made by heating and reacting a vegetable dry oil and a mineral oil with a natural resin, a synthetic resin, and the like.

The two-stage mixing is a process in which a sufficient amount of preliminary training is performed before the dispersing process of the powder-insulating antibacterial ceramic and the vehicle in the paste state so that the dispersion can be well wetted to the radiant heat insulating pigment.

The three-step dispersion is a process of completely coding by minimizing the particles of the insulating antibacterial ceramic.

The four-step adjustment described above is a process for adjusting the tack or viscosity depending on the intended use of the heat-insulating antibacterial ceramic printing ink.

After the five-step inspection, after the adjustment is completed, the process for determining whether to meet the prescribed standard, standardization, and comparative test with the basic product is made ink for heat-insulating antibacterial ceramic printing.

Insulating antibacterial ceramic printing inks are insulated ceramic printing inks mixed with alumina and vermiculite according to the composition of powder ceramics, insulated antibacterial ceramic printing inks mixed with alumina and vermiculite and insulated antibacterial ceramic printing inks mixed with alumina, vermiculite, elvan, and silver It is divided into

Insulating antibacterial ceramic printing inks are classified into insulated antibacterial roto printing inks, insulating antibacterial gravure printing inks, and insulating antibacterial flexo printing inks according to a printing press or a printed object.

The mixing | blending of said ink for thermal insulation antibacterial rotation printing is shown in <Table 1>.

The mixing | blending of the said heat insulation antibacterial gravure printing ink is as Table <Table 2>.

The mixing | blending of said ink for heat insulation antimicrobial flexo printing is shown in <Table 3>.

Insulation antibacterial printing ink of the present invention is characterized by the heat insulating properties of alumina and vermiculite, removal of harmful substances of elvanite and heavy metal decomposition and mineral elution action, water quality control and water purification antiseptic action, far infrared radiation release and the strong antibacterial power of silver By inventing antimicrobial ceramic printing inks, it is possible to expect great effects on productivity, distribution and its applications by maintaining freshness in the packaging industry and extending product shelf life.

Claims (4)

It is made by mixing and dispersing alumina, vermiculite, elvan, and silver with a mixture of fine powdered ceramics with a size of 20-200 nanometers and a velvety material having a fluidity to transfer to the printing surface and a fat, a solvent, a solvent and an auxiliary agent. Insulated antibacterial ceramic printing ink. The heat-insulating antimicrobial ceramic printing ink according to claim 1, which is made by mixing and dispersing alumina, vermiculite powder ceramic, and a vehicle which is a rapeseed material having a fluidity for transferring to a printing surface, and a fat, a solvent, and an auxiliary agent. The heat-insulating antimicrobial ceramic printing ink according to claim 1, wherein the ink is made by mixing and dispersing it with a vehicle, oil, a solvent, and an auxiliary agent, which is a rapeseed material having fluidity for transferring to elvan, silver powder ceramic, and printing surface. The insulated antibacterial ceramic printing ink according to claim 1, which is classified into an insulated antibacterial roto printing ink, an insulated antibacterial gravure printing ink, and an insulated antibacterial flexo printing ink according to a printing machine or a printed object.