JPH04119930A - Production of colored remelted glass and coloring material for remelted glass - Google Patents

Abstract

PURPOSE:To form colored remelted glass having fine appearance similar to that of native rock by charging granular glass as a base material and a coloring material obtd. by mixing glassy fine powder with a colorant into a mold and melting them by heating. CONSTITUTION:Granular glass 20 of about 1-5mm diameter as a base material and a coloring material 21 obtd. by mixing glassy fine powder 22 of <=0.1mm particle diameter with a colorant 23 are charged to a proper mold and melted by heating at 800-1,100 deg.C to form a prescribed glass product.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a method for producing colored remelted glass such as a glossy surface board used as a building material and the glass material thereof.

(Prior art) For example, glass materials such as glass grains or frit grains that have been melted into granules are introduced into a predetermined mold and reheated to be used as interior and exterior building materials with a glass-like luster on the surface. It is known that the material is melted and formed into a predetermined plate shape. This remelted glass can be used as a wall material after surface polishing if necessary, or as a non-sleeve, flooring material, etc. after being polished to a lower level.

However, in conventional remelted glass of this kind, the glass particles that are the glass material are made by crushing and classifying ordinary transparent plate glass, and colored frit is generally colorless and transparent because it is expensive. Most of them are. Furthermore, even if you disregard costs and obtain remelted glass by using colored glass particles or colored frit, the colored remelted glass will simply be colored glass with no depth, as if it had been painted. However, it has not been possible to obtain a glass material with a beautiful surface similar to that of natural stone.

Furthermore, attempts have been made to blend pigments or metal oxides into the glass grains or Friedite grains to color them, but since the pigments or metal oxides used as colorants have a high melting temperature, 8 which is the glass remelting temperature
At temperatures between 00 and 1,100° C., it does not melt and cannot be integrated with the glass material, resulting in water infiltration into the gaps or becoming brittle, resulting in insufficient strength.

(Problems to be Solved by the Invention) Therefore, it is an object of the present invention to propose a method for producing colored remelted glass and a coloring material for the remelted glass, which solves all of the above problems. This invention particularly proposes a method for producing colored glass that has a beautiful appearance similar to natural stone. Furthermore, the present invention proposes a method for manufacturing colored glass that can achieve a strong bond between a colorant and a glass material.

(Means for solving the problem) That is, the first invention disclosed herein provides
A granular glass base material of about 1.0 mm or less and a coloring material made by mixing fine glass powder of 0.1 mm or less and a coloring material are inserted into an appropriate mold, and the materials are heated and melted at 800 to 1100 ° C. to form a specified glass product. The present invention relates to a method for producing colored remelted glass.

A second invention relates to a material used in the above-mentioned manufacturing method, and relates to a coloring material for remelting crows characterized by a mixture of glassy fine powder of 0.1 mm or less and a coloring material.

(Function) In the above manufacturing method invention, the color material for color remelting glass of the second invention is used. This color material is 0.1
It is a mixture of glassy fine powder of 0.1 mm or less and a coloring agent.
Since it is placed around the granular glass substrate together with the vitreous fine powder of 1 mm or less in size, when heated at the glass melting temperature, the vitreous fine powder melts together with the granular glass substrate. It can be effectively integrated with the molten glass substrate. Therefore, the granular glass substrate can be colored extremely beautifully.

(Example) Examples will be described below with reference to the attached drawings. Figure 1 is a cross-sectional view schematically showing a remelted glass structure according to the present invention, and Figure 2 is a cross-sectional view showing an example of the manufacturing method of the present invention. be.

The granular glass substrate 20 constitutes a substrate of remelted glass, and is obtained, for example, by crushing transparent plate glass or frit and classifying it into particle sizes of about 1 to 5 mm. Generally, those having a diameter of about 1 to 2 mm are often used. Note that colored glass may also be used.

A mixture of vitreous fine powder 22 and colorant 23 is used as coloring material 21 for the beaded granular glass substrate 20 .

The vitreous fine powder 22 is made by pulverizing plate glass or frit to a size of 0.1 mm or less, and the same material as the base material 21 is preferably used. Note that it may be colored.

The coloring material 23 is made of a known inorganic pigment and metal oxide.

The mixing ratio of the glassy fine powder 22 and the coloring material 23 is determined according to its fire resistance.An example of the zero-order mixing ratio and color will be described below.

Chromium/tin pink [2] + Glass powder [8] Red silicone silicate [1] + Glass powder [9] Rumored poite cobalt oxide [0,2] + Glass powder [9,8] Tetrablue chromium oxide・Aluminum oxide Subinergrin [0,5
] + Glassy fine powder [9,5] => Green titanium oxide [1] + Glassy fine powder [9 Beige chromium oxide, iron oxide, nickel oxide, manganese dioxide compound [0,3] + Glassy fine powder [9, 7] Gray chromium oxide, iron oxide, nickel oxide, mankane dioxide compound [1] + vitreous fine powder [9] black oxide, copal oxide) - aluminum oxide, zinc oxide, silicon oxide spinel [1 + vitreous fine powder [9] Medium blue cobalt oxide, aluminum oxide, silicon oxide, zinc oxide, chromium oxide compound [1] + glassy fine powder [9] If a high concentration is required, use the following formulation.

Silicolam silicate [1] + Glassy fine powder [1] White titanium oxide [1] + Glassy fine powder [1] - Beige chromium/tin pink [1] + Glassy fine powder [1] Red chromium oxide/oxide A coloring material 21 made of a mixture of iron, carbon oxide, kel, manganese dioxide, and cobalt oxide compound [1] + glassy fine powder [1] is a mixture of the glassy fine powder 22 and a coloring material 23, which is a mixture of the granular glass base material 20 At the same time, the glass material M is introduced into a mold 50 framed in a plate shape, for example, as shown in FIG. Then, it is heated in a furnace 51 at 800 to 1100° C. by a known method to melt and form a plate-shaped glass product. &Oh, code 5 in the same figure
2 is a stainless steel plate lid for smoothing the surface of the glass product, and 60 is a foam material that will be the base material of the glass product.

(Effects) As illustrated and explained above, according to the present invention, a coloring material that emits a predetermined color is arranged around a granular glass substrate together with glassy fine powder of 0.1 mm or less. ,
When heated at a glass melting temperature, the glass fine powder is melted together with the glass substrate, and the colorant can be effectively integrated with the molten glass substrate. Therefore, the glass product obtained by this manufacturing method can have a deep, colored glass surface with a solid and luxurious appearance, resembling natural stone such as marble or granite.

[Brief explanation of drawings]

FIG. 1 is a cross-sectional view schematically showing a remelted glass structure according to the present invention, and FIG. 2 is a cross-sectional view showing an example of the manufacturing method of the present invention. 20... Granular glass base material, 21... Color material, 22
... Glassy fine powder, 23... Coloring material. Figure Figure August 2, 1991

Claims (1)

[Claims] 1. A granular glass base material of about 1 to 5 mm and a color material made of a mixture of fine glass powder of 0.1 mm or less and a coloring material are inserted into an appropriate mold and heated at 800 to 1100°C. A method for producing colored remelted glass, characterized in that a predetermined glass product is produced by heating and melting the above-mentioned materials. 2. A coloring material for remelted glass characterized by a mixture of glassy fine powder of 0.1 mm or less and a coloring material.