JPS6379751A - Spray-form burn glazed body and manufacture - Google Patents

Abstract

(57) [Abstract] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Application The present invention has a glazed layer in which a translucent glaze component such as a milky white glaze is effectively present on coarse colored pigment particles distributed in an uneven surface. The present invention relates to a glazed body such as a novel atomized kiln modified glazed tile and its manufacturing method.

Conventional Techniques Disadvantages and Problems A glazed body, such as the atomized kiln modified glazed body of the present invention, exhibits a substantially uniformly distributed pigment-based colored pattern through a translucent glaze pattern such as a misted opalescent glaze. It didn't exist before.

A glazed body that is slightly similar to this is made by applying a colored glaze on a base material, applying a cloudy matte glaze on top of it, and then creating disorderly and uneven cracks in the matte glaze to create a 9-glazed body. Are known. This glazed body had an appearance in which the colored glaze was visible through uneven cracks in the upper layer of matte glaze, and the color tone of the glaze was discontinuous and lacked nuance.

Therefore, aesthetic improvements were considered desirable.

The present inventor has developed a glaze consisting of a translucent glaze component and a colored glaze component having a specific component composition, particle size range, specific gravity, etc.
By applying fine droplets to a substantially hygroscopic base material, causing movement of glaze components in the glaze layer, and firing, a novel atomized kiln-modified glazed body can be obtained. Successful.

When a milky white glaze component is used as the above-mentioned translucent glaze component, a milky white mist pattern is obtained, and when a translucent colored glaze component other than milky white is used, a mist pattern of that color system is obtained. In the following description, an embodiment in which a milky white glaze component is typically used as a translucent glaze component will be described.

That is, according to the present invention, fine-grained opalescent glaze components (i.e.,
(Generally, opalescent glaze should be read as translucent glaze.)
, has a specific gravity of 1.25 to 1.551, consisting essentially of relatively coarse-grained colored glaze components and water! /CD is uniformly applied in droplet form onto a substantially hygroscopic substrate material to substantially levitate the opalescent glaze components, and the glaze li
! A glaze layer in which the opalescent glaze component is present on the colored pigment particles distributed in an uneven surface, characterized by a step of firing the glaze to a temperature higher than the melting temperature of the glaze in a state in which J has absorbed moisture and is attached to the base material. Provided is a method for producing a mist-shaped kiln modified glazed body having the following.

Therefore, it consists of a glaze layer and a base material in which relatively fine opalescent glaze components are present on relatively coarse colored pigment particles distributed in an uneven surface shape, and the concave distribution areas and gaps of the colored pigment components are A mist kiln modified glaze body is provided which has a mist pattern based on the opalescent glaze and has a colored pattern based on the pigment in the convex distribution portion of the colored pigment component.

By further applying a glaze pattern such as a glaze print partially on the above dried glaze layer and firing it, a glazed body having a partial print pattern on the above mist kiln pattern can be easily produced. can get.

Note that the above-mentioned uneven surface distribution means an uneven state formed by the tops and gaps of the arrangement of coarse pigment particles.

Preferred embodiments of the invention will be described in detail below.

(1> Glaze The glaze used in the present invention is a glaze slurry consisting essentially of a translucent glaze component such as a milky white glaze component and a colored glaze component.The weight ratio of both components is generally from about 1:20 to The ratio is approximately 20:1, but is not particularly limited as long as a desired mist pattern can be obtained.

As the pigment (opacifier) of the opalescent glaze component, fine particles (for example, average particle size of about 1.5 to 2 microns) of zirconium silicate,
Examples include tin oxide, titanium oxide, and mixtures thereof. Translucent pigments of other colors can be used in this paint as well. Note that it is also possible to use a colored opalescent glaze component obtained by adding a necessary amount of a coloring agent to the opalescent glaze component. As the fine material for the colored glaze component, a relatively coarse pigment for glaze (for example, an average particle size of about 5 microns) is used. The specific gravity of the glaze slurry (i.e., adjusted by the water content) needs to be lower than that of commonly used glazes, for example, 1.25 to 1.55°C, about 4°C, and preferably 1.55°C.
The range is approximately 3 to 1.5 y/<. In addition, if the specific gravity of the glaze is less than 1.25 p/j℃ or more than 1.6 p/j℃,
This invention is difficult to achieve.

(2) Substrate to be glazed The substrate to be glazed must be substantially hygroscopic, and it is generally advantageous to have a material with low hygroscopicity. Preferably porcelain to medium-low temperature (approximately 1300
℃ or lower, preferably 1250℃ or lower), a base material having a hygroscopicity comparable to that of a fired porcelain base is used. Specific examples include ceramic bases, hygroscopic ceramic boards, dry concrete boards, and typically ceramic tile bases.

(3) Application of glaze In the present invention, it is necessary to apply the glaze in the form of droplets onto the substrate. That is, according to typical embodiments, a glazing method in which the glaze is dispersed in the form of droplets using an external force such as air flow or centrifugal force, such as a spray method, a disk centrifugation method, a cup centrifugation method, etc., is adopted. The average particle size of glaze droplets is (L
Approximately 5 to 2-5 Ial, preferably approximately 18 to 1.5 Ial, is applied repeatedly several times (at least twice) substantially uniformly onto the substrate.

In this case, it is possible to apply the glaze in late autumn using the curtain method, etc., but it is generally preferable to apply it in the form of droplets, and the thickness of the glaze layer is generally the same as before firing. When drying after absorbing moisture (approximately L5 to α81III), and when fused after firing, approximately A4 to A7 m is sufficient.In addition, the present invention is not applicable in the form of droplets, but in the form of flowing down forms such as curtains. is difficult to achieve.

Actions and Effects When the above-mentioned glaze is applied to a hygroscopic substrate in the manner described above, the moisture in the glaze is absorbed into the substrate material during the first droplet distribution of the glaze, and the glaze components are absorbed into the material. Adheres evenly to the ground. In the second and subsequent droplet spraying, the applied glaze temporarily exists in the state of glaze slurry. Therefore, the colored glaze components, which are relatively coarse particles, tend to settle.
Then, the moisture in the upper layer glaze slurry passes through the lower layer glaze component and is absorbed into the base material, and the glaze layer solidifies and becomes attached to the base material. adhere to. In this manner, a base material is obtained in which the opalescent glaze component is present on and in the gaps between the colored glaze coarse particles substantially uniformly distributed on an uneven surface, and the glaze is adhered to the base material. This pre-fired glaze-applied base is not much different in appearance from a normal glazed-applied base, but by firing it to a temperature higher than the melting temperature of the glaze, a mist-like kiln-modified glazed body unique to the present invention can be obtained.

That is, according to the present invention, a mist-like pattern kiln variation is created in which a milky white glaze component is relatively thickly present on the concave distribution area of the colored glaze component and in the gaps, and a milky white glaze component is thinly present on the convex distribution area of the colored oil component. A glazed body is obtained. Therefore, an aesthetic impression rich in nuance, such as natural transition of glaze color tone, depth of glaze tone, and homogeneous distribution of mist pattern, can be effectively achieved. When using other colored translucent glaze components instead of the opalescent glaze component, similar effects are achieved depending on the coloring.

Example A zirconium silicate milky white glaze component with an average grain size of about 1.5 microns was 15 parts by weight as Zr1Os.5ins, a dark blue colored glaze component with an average grain size of about 5 microns was 1 part by weight as cobalt silicate, and the basic glaze component A glaze slurry having a specific gravity of t 4 p/uC was prepared using 126 parts by weight of the glaze component and water. As a base material, 20X2Ga
We used the Setsukyoga tile base, which has a water absorption rate of 1.5 m. Using a spray-type glazing tool, the glaze was coated with an average particle size of about 1111.
The solution was applied uniformly onto the substrate by repeating 3 times in the form of 0 droplets.

The thickness of the glaze layer that absorbed moisture and adhered to the base material was about a7cm. This glazed body was fired at about 1150° C. for 2 hours and air cooled. A kiln-treated glazed tile with a deep natural mist-like pattern was obtained in which the dark blue colored glaze was visible through the 11-shaped opalescent oil layer.

For comparison, (a) the specific gravity of the glaze slurry was approximately 1.
In the case of 6y, A sword, (b) the specific gravity is approximately 1.2ip,
In the case of the A sword, the effects of the present invention were not achieved when the above-mentioned aspects were implemented in the case where the glaze was applied using the flow-down curtain method instead of the truss spray method.

Claims (4)

[Claims] (1) Consists of a glaze layer and a base material in which relatively fine translucent glaze components are present on relatively coarse colored pigment particles distributed in an uneven surface shape, and the concave distribution portions of the colored pigment components and A mist kiln modified glazed body having a mist pattern of the translucent glaze in the gap and a colored pattern of the pigment in the convex distribution portion of the colored pigment component. (2) The kiln modified glazed body according to claim 1, wherein the translucent glaze component is a milky white glaze component. (3) The kiln modified glazed body according to claim 1 or 2, wherein the base material is a ceramic tile base. (4) A specific gravity of 1.25 to 1.55 g consisting essentially of fine-grained translucent glaze components, relatively coarse-grained colored glaze components, and water.
/cc of glaze is uniformly applied in the form of droplets onto a substantially hygroscopic base material to substantially levitate the translucent glaze components, and the glaze layer is hygroscopic and becomes a substrate. An atomized kiln having a glaze layer in which the translucent glaze component is present on the colored pigment particles distributed in an uneven surface, characterized by a step of firing the glaze to a temperature higher than the melting temperature of the glaze while it is attached to the material. Manufacturing method of modified glaze body.