CN1533887A - Glass ceramics composition and its manufacturing method - Google Patents

Abstract

A glass-ceramics composition is composed of ceramic layer and the first glass layer, which are linked by fusion. Its preparing process is also disclosed.

Description

A kind of glass ceramic composition and manufacture method thereof

Technical field

The present invention relates to the glass ceramics field, relate in particular to a kind of glass ceramic composition and manufacture method thereof.

Background technology

Pottery and glass have its each different characteristic: the first, and ceramic surface absorption is strong, and easy to crack; And glass is just in time opposite.The second, the glass intensity coefficient is very low, and is frangible, and adhesive power is poor; And pottery is just in time opposite.But they also have common characteristic: the first, and anticorrosion, acidproof, alkaline-resisting.The second, convenient formation.

Just because of the quality that they are had nothing in common with each other, for many years, scientific and technical personnel wish they are fused together by every means, utilize the quality of pottery on the one hand, utilize the characteristic of glass on the other hand.At present, on commercial Application, also can only accomplish on ceramic surface, to coat glass dust, also have a segment distance from the expectation of reality.

Summary of the invention

The technical issues that need to address of the present invention have provided a kind of glass ceramic composition and manufacture method thereof, are intended to solve in commercial Application upper glass and the ceramic defective that can not fuse.

In order to solve the problems of the technologies described above, the present invention is achieved by the following technical solutions:

The present invention includes ceramic layer, first glassy layer, the described ceramic layer and first glassy layer fuse.

Described glass ceramic composition is realized by following steps:

By meter proportioning pottery;

Stir by agitator;

Grind by mill;

By sieve mesh device sieve mesh;

Be mixed into mud by water controller;

Become granular substance by spray dryer;

By former compression moulding;

Be fired into the pottery base material by warmer;

By the meter proportioning nature of glass;

Stir by agitator;

Grind by mill;

By sieve mesh device sieve mesh;

By be mixed into nature of glass siccative in glassware;

On described pottery base material, install described nature of glass siccative additional by sprayer;

Be fired into glass ceramic composition by warmer.

Compared with prior art, the invention has the beneficial effects as follows: can utilize the pottery and the different qualities of glass and common characteristic to be widely used industrial.

Description of drawings

Fig. 1 is one embodiment of the present of invention;

Fig. 2 is an another embodiment of the present invention;

Fig. 3 is an implementation method flow chart of the present invention;

Fig. 4 is another implementation method flow chart of the present invention;

Wherein: ceramic layer 1 first glassy layer 2 second glassy layers 3 the 3rd glassy layer 4 the 4th glassy layer 5 the 5th glassy layer 6 the 6th glassy layer 7 the 7th glassy layer 8 the 8th glassy layer 9

The specific embodiment

Below in conjunction with the accompanying drawing and the specific embodiment the present invention is described in further detail:

As seen from Figure 1: the present invention includes ceramic layer 1, the first glassy layer 2, the described ceramic layer 1 and first glassy layer 2 fuse; Described fusing is not link together by other material.

As seen from Figure 2: the present invention includes ceramic layer 1, the first glassy layer 2, the second glassy layers 3, the three glassy layers 4, the four glassy layers 5, the five glassy layers 6, the six glassy layers 7, the seven glassy layers 8, the eight glassy layers 9; The described ceramic layer 1 and first glassy layer 2 fuse, described first glassy layer 2 and second glassy layer 3, second glassy layer 3 and the 3rd glassy layer 4, the 3rd glassy layer 4 and the 4th glassy layer 5, the 4th glassy layer 5 and the 5th glassy layer 6, the 5th glassy layer 6 and the 6th glassy layer 7, the six glassy layers 7 and the 7th glassy layer 8, the seven glassy layers 8 and the 8th glassy layer 9 all are to link together by the mode that fuses;

Described each glassy layer is meant that the chromaticness of each glassy layer has nothing in common with each other.

As seen from Figure 3: the present invention realizes by following steps:

By meter proportioning pottery 11;

Stir 12 by agitator;

Grind 13 by mill;

By sieve mesh device sieve mesh 14;

Be mixed into mud 15 by water controller;

Become granular substance 16 by spray dryer;

By former compression moulding 17;

Be fired into pottery base material 18 by warmer;

By the meter proportioning nature of glass 21;

Stir 22 by agitator;

Grind 23 by mill;

By sieve mesh device sieve mesh 24;

Be mixed into nature of glass siccative 25 by the siccative device;

On described pottery base material, install described nature of glass siccative 31 additional by sprayer;

Be fired into glass ceramic composition 32 by warmer.

Comprise white clay, pyrophillite, magnetite, kaolin, ridgity material by the pottery described in meter proportioning pottery 11 steps;

By the sieve mesh described in sieve mesh device sieve mesh 14 steps is that 180 orders sieve;

Be mixed into white clay in mud 15 steps by water controller, pyrophillite, magnetite, the proportion of kaolin and ridgity material is:

White clay 30%, pyrophillite 15%, magnetite 20%, kaolin 20%, ridgity material 15%;

Described white clay is the Fujian white clay; Described ridgity material is alundum (Al and silica;

Being fired into firing described in pottery base material 18 steps by warmer is between 1000 degree-1200 degree; Especially at 1180 degree;

Comprise sodium carbonate, calcium carbonate, potash, lead oxide, magnesia, silica by the nature of glass described in the meter proportioning nature of glass 21 steps;

By the sieve mesh described in sieve mesh device sieve mesh 24 steps is that 250 orders sieve;

Be mixed into sodium carbonate in nature of glass siccative 25 steps by the siccative device, calcium carbonate, potash, lead oxide, magnesia and silica proportion are: sodium carbonate 40%, calcium carbonate 7%, potash 5%, lead oxide 3%, magnesia 5%, silica 40%;

Being fired into firing described in glass ceramic composition 32 steps by warmer is between 1000 degree-1100 degree; Especially at 1050 degree.

As seen from Figure 4:

By meter proportioning pottery 11;

Stir 12 by agitator;

Grind 13 by mill;

By sieve mesh device sieve mesh 14;

Be mixed into mud 15 by water controller;

Become granular substance 16 by spray dryer;

By former compression moulding 17;

Be fired into pottery base material 18 by warmer;

By the meter proportioning nature of glass 21;

Stir 22 by agitator;

Grind 23 by mill;

By sieve mesh device sieve mesh 24;

Be mixed into nature of glass siccative 25 by the siccative device;

On described pottery base material, install described nature of glass siccative 31 additional by sprayer;

By the meter proportioning nature of glass 21, stir 22 by described by agitator,

Grind 23 by mill, make the nature of glass siccative 251 of different chromaticness by sieve mesh device sieve mesh 24 and the step that is mixed into nature of glass siccative 25 by the siccative device;

Install the nature of glass siccative layer 311 of different chromaticness additional by the cover half device;

Be fired into glass ceramic composition 32 by warmer.

Claims (6)

1, a kind of glass ceramic composition comprises ceramic layer (1), it is characterized in that: also comprise first glassy layer (2), described ceramic layer (1) fuses with first glassy layer (2).

2, a kind of glass ceramic composition according to claim 1 is characterized in that: also comprise second glassy layer (3), the 3rd glassy layer (4), the 4th glassy layer (5), the 5th glassy layer (6), the 6th glassy layer (7), the 7th glassy layer (8), the 8th glassy layer (9); Described ceramic layer (1) fuses with first glassy layer (2), described first glassy layer (2) and second glassy layer (3), second glassy layer (3) and the 3rd glassy layer (4), the 3rd glassy layer (4) and the 4th glassy layer (5), the 4th glassy layer (5) and the 5th glassy layer (6), the 5th glassy layer (6) and the 6th glassy layer (7), the 6th glassy layer (7) and the 7th glassy layer (8), the 7th glassy layer (8) all is to link together by the mode that fuses with the 8th glassy layer (9).

3, a kind of method of making glass ceramic composition may further comprise the steps:

By meter proportioning pottery (11);

Stir (12) by agitator;

Grind (13) by mill;

By sieve mesh device sieve mesh (14);

Be mixed into mud (15) by water controller;

Become granular substance (16) by spray dryer;

By former compression moulding (17);

Be fired into pottery base material (18) by warmer; It is characterized in that further comprising the steps of:

By the meter proportioning nature of glass (21);

Stir (22) by agitator;

Grind (23) by mill;

By sieve mesh device sieve mesh (24);

Be mixed into nature of glass siccative (25) by the siccative device;

On described pottery base material, install described nature of glass siccative (31) additional by sprayer;

Be fired into glass ceramic composition (32) by warmer.

4, a kind of method of making glass ceramic composition according to claim 3, it is characterized in that: on described pottery base material, install described nature of glass siccative additional (after 310 by sprayer described, all right: by the described meter proportioning nature of glass (21) of passing through, stir (22) by agitator, grind (23) by mill, make the nature of glass siccative (251) of different chromaticness by sieve mesh device sieve mesh (24) and the step that is mixed into nature of glass siccative (25) by the siccative device; Install the nature of glass siccative layer (331) of different chromaticness additional by the cover half device.

5, a kind of method of making glass ceramic composition according to claim 3 is characterized in that: comprise white clay, pyrophillite, magnetite, kaolin, ridgity material by the pottery described in meter proportioning pottery (11) step;

By the sieve mesh described in sieve mesh device sieve mesh (14) step is that 180 orders sieve;

Be mixed into white clay in mud (15) step by water controller, pyrophillite, magnetite, the proportion of kaolin and ridgity material is:

White clay 30%, pyrophillite 15%, magnetite 20%, kaolin 20%, ridgity material 15%;

Being fired into firing described in pottery base material (18) step by warmer is between 1000 degree-1200 degree; Especially at 1180 degree;

Comprise sodium carbonate, calcium carbonate, potash, lead oxide, magnesia, silica by the nature of glass described in the meter proportioning nature of glass (21) step;

By the sieve mesh described in sieve mesh device sieve mesh (24) step is that 250 orders sieve;

Be mixed into sodium carbonate in nature of glass siccative (25) step by the siccative device, calcium carbonate, potash, lead oxide, magnesia and silica proportion are: sodium carbonate 40%, calcium carbonate 7%, potash 5%, lead oxide 3%, magnesia 5%, silica 40%;

Being fired into firing described in glass ceramic composition (32) step by warmer is between 1000 degree-1100 degree; Especially at 1050 degree.

6, a kind of method of making glass ceramic composition according to claim 5, it is characterized in that: described white clay is the Fujian white clay; Described ridgity material is alundum (Al and silica.

Images