CN103524147A - Glazed brick production process - Google Patents
Glazed brick production process Download PDFInfo
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- CN103524147A CN103524147A CN201310511350.XA CN201310511350A CN103524147A CN 103524147 A CN103524147 A CN 103524147A CN 201310511350 A CN201310511350 A CN 201310511350A CN 103524147 A CN103524147 A CN 103524147A
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Abstract
The invention provides a glazed brick production process, belonging to the technical field of building ceramic production. The production process comprises the steps of forming cloth material, applying ground coat, printing, applying cover glaze, sintering, polishing and grinding, wherein ground coat used in the ground coat applying step is phosphor-boron or boron-calcium multiphase opaque glaze, and the ground coat contains 0.5%-3% (in percent by mass) of anatase titanium oxide and 0.5%-5% of attapulgite. Compared with the prior art, the glazed brick production process provided by the invention has the advantages that the glazed brick production process is less in ink dosage, clear in color, and almost free of chromatic aberration color cast; moreover, inkjet blocking probability is lowered, cleaning and maintaining times of a spray head are reduced, production continuity is improved, and a situation of midway downtime rarely happens except from necessary maintenance.
Description
Technical field
The present invention relates to architectural pottery production technology, relate in particular to a kind of throwing glazed brick production technique.
Background technology
Throwing glazed brick is popular in recent years a kind of ceramic wall and floor bricks product, and it,, by impose stamp after ground-coat enamel in adobe, imposes layer of transparent cover-coat enamel afterwards again, after entering klining and becoming, more transparent cover coat is carried out to polishing, obtains throwing glaze brick product.It has the effect of in-glaze decoration, and printed layer, under the protection of transparent cover coat, can not be worn substantially; And through polished finish, make product glossiness high, good decorating effect.
Inkjet technology is the third generation printing technique after rotary printing and screen printing, and it,, by ink-jet printer, prints pattern according to predetermined pattern in adobe.The ink that at present ceramic ink jet printer is used mostly is oil-based ink, needs still to keep after high temperature sintering the color and luster of pattern, and the color development component in ink is mainly high temperature inorganic color, and needs color development stable.For guaranteeing the clear of logo printing layer, the ground glaze layer that imposes on billet surface needs higher whiteness, the sharpness of the ink-jet printed rear pattern of guarantee like this, therefore ground-coat enamel adopts zirconium base glaze substantially, but zirconium substrate glaze is influential to most ink colour generations, this just needs to increase with China ink to measure and guarantee color development effect.And some colour system is responsive to ground-coat enamel Component comparison, for example blue and fuchsin colour system ink has certain colour cast in zirconium substrate glaze, causes for presenting the color and luster impacts such as purple, pink larger.This is because color development pigment fineness≤1 μ m in ink, in sintering process, is easily wrapped up by zirconium base, affects color development effect, causes the defects such as colour cast, look shallow.And zirconium base glaze has certain radioactivity, although select at present more options zirconium silicate or boron zirconium frit to use, also higher compared with the glaze radioactivity of other component." Chinese industrial pottery " the 17th the 4th phase of volume of August in 2010 discloses document number and has been: the 1006-2874(2010) documents and materials of 04-0001-07 " research of environmentally friendly high opaque glaze ", it discloses: with Ca
3(PO
3)
2, talcum, quartz and boron frit be essentially consist, developed without opacifying agent R
2o-RO-Al
2o
3-SiO
2-P
2o
5-B
2o
3the environmentally friendly high opaque glaze of system.By X ray diffraction and scanning electron microscope analysis, studied different B
2o
3/ P
2o
5the impact on microstructure of property of glaze and glaze etc. of mass ratio and firing temperature, and the opaque mechanism of the heterogeneous opaque glaze of phosphorus boron is analyzed.Result shows: at B
2o
3/ P
2o
5mass ratio is 1/2~2 region, and 1200 ℃ of firing temperatures, can obtain the opaque glaze that whiteness is higher; B
2o
3/ P
2o
5when mass ratio is different, glaze melt produces repeatedly immiscible phase, occurs the conversion of microfacies function, and opacity also changes thereupon; B
2o
3/ P
2o
5mass ratio is 1 o'clock, and in glaze, phase-splitting droplet is relatively many, and size and visible ray are close, and dispersed high, makes glaze strong to the refraction of light and scattering power, and glaze presents high milky white effect, and whiteness can reach 87.Although this kind of glaze is lower as ground-coat enamel radioactivity, but in glaze, phase-splitting droplet is more, the phase-splitting droplet on ground glaze layer surface easily wraps up the color development colorant in ink, as spray ink Printing, with ground-coat enamel, still there is the similar problem of zirconium substrate glaze, be that ink color development is bad, need to increase with China ink and measure and just can produce a desired effect, this not only wastes ink, cause shower nozzle blocking probability to increase, and also have certain influence to producing toning.
Summary of the invention
The object of the invention is to propose a kind of throwing glazed brick production technique, it can avoid the impact of ground-coat enamel on ink-jet printed layer color development in sintering process, saves ink, reduces shower nozzle blocking probability, enhances productivity.
For reaching this object, the present invention by the following technical solutions: a kind of throwing glazed brick production technique, it comprises the steps:
Step 1) cloth moulding: select ceramic wall and floor bricks to produce conventional raw material, impact briquetting after ball milling, deironing, old, granulation, makes adobe;
Step 2) execute ground-coat enamel: by after the stamping forming brick bat drying of step 1, by the mode of glaze spraying or pouring glaze, execute ground-coat enamel;
Step 3) stamp: after ground-coat enamel is dry, select the ink-jet printed layer of ceramic ink jet printing machine ink-jet printed formation on ground-coat enamel;
Step 4) is executed cover-coat enamel: after stamp, by glaze spraying or pouring glaze mode, execute cover-coat enamel, described cover-coat enamel is transparent;
Step 5) is burnt till: enter roller kiln oxidizing atmosphere and burn till, 1100~1220 ℃ of firing temperatures, firing period 70~120 minutes;
Step 6) rubbing down: after burning till, treat that goods are cooling, carry out edging and polishing, obtain finished product;
It is characterized in that: step 2) described in ground-coat enamel be phosphorus boron or the heterogeneous opaque glaze of boron calcium, and in described ground-coat enamel, to contain mass fraction be 0.5%~3% anatase type titanium oxide or 0.5%~5% attapulgite.
Select in phosphorus boron or the heterogeneous opaque glaze of boron calcium and do not contain zirconium, radioactivity is lower; And add therein anatase type titanium oxide can enter in glaze in phase-splitting small droplets, and then the wrapped probability of color development colorant in minimizing ink, and anatase type titanium oxide itself just has opaque effect, can further increase ground-coat enamel whiteness, allow ink obtain better color developing effect.Attapulgite claims again polygorskite (Palygouskite) or Palygorskite, be a kind of tool chain laminate structure containing Shuifu County's magnesium silicate clay mineral.Attapulgite has unique dispersion, high temperature resistant, the anti-good colloidal property such as saline and alkaline and higher adsorption bleaching ability.And there is certain plasticity-and cohesive force, there is the intermediate structure between chain-like structure and laminate structure.Its structure belongs to 2:1 type clay mineral.In each 2:1 unit structure layer, tetrahedron wafer angle is pushed up direction at a certain distance and is put upside down, form layers chain.At tetrahedron bar interband, form the passage parallel with chain, filling zeolite water and crystal water in passage.Therefore add the viscosity that can increase glaze slip in ground-coat enamel, have preferably and adhere to; And when burning till, in above-mentioned passage, filling zeolite water and crystal water can decompose, in ground-coat enamel, in the above-mentioned passage of milkiness phase-splitting small droplets meeting partial insertion, reduce the impact on ink color development, make ink obtain preferably color development effect.
Preferably, in above-mentioned throwing glazed brick production technique, in described ground-coat enamel, the shared mass fraction of anatase type titanium oxide is 1%~1.5%.When add-on is less, DeGrain, adds when more and may make opaque effect variation, and the defects such as glaze is crude, pin hole increase.
Preferably, in above-mentioned throwing glazed brick production technique, in described ground-coat enamel, the shared mass fraction of attapulgite is 2%~4%.Similar with anatase type titanium oxide, add when few, DeGrain, when more, also can reduce glaze quality.
The present invention also discloses a kind of preferred version, and in above-mentioned throwing glazed brick production technique, in described ground-coat enamel, adding mass fraction is 0.5%~2% stannic oxide.Stannic oxide, as a kind of good opacifying agent, can obtain the better glaze of opaque effect, and can improve glaze quality, makes smooth, the basic no pin-hole defect of glaze.
The present invention also discloses a kind of preferred version, and, in above-mentioned throwing glazed brick production technique, when described ground-coat enamel is the heterogeneous opaque glaze of boron calcium, wherein said calcium constituent is introduced by wollastonite.
In above-mentioned throwing glazed brick production technique, the iron in described ground-coat enamel or manganese element content sum≤0.1%.
In above-mentioned throwing glazed brick production technique, described in to execute the ground glaze layer thickness that ground-coat enamel step forms be 0.2mm~0.5mm.
Compared to the prior art; throwing glazed brick production technique provided by the invention has following advantage: ink consumption is few; color development is clear; basic no color differnece colour cast; and the reduction of ink-jet blocking probability, shower nozzle cleaning maintenance number of times reduces, and improves the continuity of producing; except necessary maintenance, seldom there is shutdown situation midway to occur.
Embodiment
Below by embodiment, further illustrate technical scheme of the present invention.Be to be understood that, following examples be the preferred embodiments of the present invention or can practical range the part example of intercepting, description for processing parameter or processing step should only not be confined to the specific examples providing in embodiment, and in description, in order to save space, for background technology or knowledge known to a person of ordinary skill in the art, will only carry out brief description.
Embodiment 1
In the present embodiment, select boron calcium opaque glaze as ground-coat enamel, wherein contain mass fraction and be 0.5% anatase type titanium oxide.
In ground-coat enamel, chemical constitution is specific as follows: silicon-dioxide 55.5%~61.5%; Aluminum oxide: 8.5%~11.5%; Ferric oxide :≤0.09%; Calcium oxide: 7.5%~12.5%; Boron oxide: 7.5%~10.5%; Magnesium oxide :≤1.0%; Sodium oxide: 1.0%~2.0%; Zinc oxide: 5.0%~6.0%; Potassium oxide: 9.0%~10.0%; Lithium Oxide 98min :≤1.0%; Anatase type titanium oxide: 0.5%.
According to as above formula rate, calculate raw materials used formula, selecting in the present embodiment potassium felspar sand, silica powder, wollastonite, kaolin, talcum, boron frit, anatase type titanium oxide, zinc oxide etc. is raw material, add water for ball milling, when ball milling, need to additionally add the carboxymethyl cellulose of glaze siccative weight 0.03%~0.05% and 0.1%~0.3% tripoly phosphate sodium STPP.325 mesh screen residues 1~2% of glaze slip after ball milling, mobility < 100S.During glazing, glaze slip proportion is 1.60~1.70.Use wollastonite can improve property of glaze as raw material, and can make more easily to form boron calcium milkiness phase.
Introduce in detail this kind of throwing glazed brick production technique below.
Step 1) cloth moulding: select ceramic wall and floor bricks to produce conventional raw material-feldspar, clay, sand, additive etc., impact briquetting after ball milling, deironing, old, granulation, makes adobe.Select in the present embodiment the mould of 600mm * 600mm specification, mould coefficient is 1.1.During punching press, powder water ratio is advisable with 5% left and right.
Step 2) execute ground-coat enamel: by after the stamping forming brick bat drying of step 1, by the mode of glaze spraying or pouring glaze, execute ground-coat enamel.By the agency of above ground-coat enamel composition and engineering parameter, does not just additionally repeat here.Before executing ground-coat enamel, preferably base substrate is cleaned, and water spray is wetting.
Step 3) stamp: after ground-coat enamel is dry, select the ink-jet printed layer of ceramic ink jet printing machine ink-jet printed formation on ground-coat enamel.What select in the present embodiment is the four look ink-jet print systems of wishing that ceramic machinery company limited produces, pink, yellow, brown, blue ink that ink adopts Spain Yi Dajia (esmaglassitaca) company to produce.Because using as test, decalcomania is purple.
Step 4) is executed cover-coat enamel: after stamp, by glaze spraying or pouring glaze mode, execute cover-coat enamel, described cover-coat enamel is transparent.Its formula siccative constituent mass ratio is in the present embodiment: clear frit class fusing assistant 65%, kaolin/calcined kaolin 10%, calcination of talc 5%, aluminum oxide 5%, zinc oxide 10%, calcium carbonate 5%.The carboxymethyl cellulose of additional siccative gross weight 0.05%, 0.3% tripoly phosphate sodium STPP, 35% water for ball milling.325 mesh screen residues 1~2% of glaze slip after ball milling, mobility < 100S.During glazing, glaze slip proportion is 1.59, and glazing thickness is 0.2mm~0.4mm.
It will be appreciated by those skilled in the art that the above composition and engineering parameter about transparent is only exemplary, in actual production, can adjust accordingly according to calcining system.
Step 5) is burnt till: enter roller kiln oxidizing atmosphere and burn till, 1100~1220 ℃ of firing temperatures, firing period 70~120 minutes;
Step 6) rubbing down: after burning till, treat that goods are cooling, carry out edging and polishing, obtain finished product.
Production test shows, produces selected Standard colour board and need to expend ink and be about 8.0g/ sheet; Produce continuously 10 order of classes or grades at school, because shower nozzle blocks the maintenance carried out 2 times.
Embodiment 2
Substantially the same manner as Example 1, institute's difference is, the ground-coat enamel adopting is the heterogeneous opaque glaze of boron phosphorus, and wherein anatase type titanium oxide mass fraction is 1.0%.In background technology, be disclosed in B
2o
3/ P
2o
5mass ratio is 1 o'clock, and in glaze, phase-splitting droplet is relatively many, and size and visible ray are close, and dispersed high, makes glaze strong to the refraction of light and scattering power, and glaze presents high milky white effect, and chemical constitution is specific as follows:
Silicon-dioxide 55.5%~61.5%; Aluminum oxide: 8.5%~11.5%; Ferric oxide :≤0.09%; Calcium oxide: 1.5%~2.5%; Vanadium Pentoxide in FLAKES: 5.0%~9.5%; Boron oxide: 5.0%~9.5%; Magnesium oxide :≤1.0%; Sodium oxide: 1.0%~2.0%; Zinc oxide: 5.0%~6.0%; Potassium oxide: 9.0%~10.0%; Lithium Oxide 98min :≤1.0%; Anatase type titanium oxide: 1.0%.
According to as above formula rate, calculate raw materials used formula, selecting in the present embodiment potassium felspar sand, silica powder, wollastonite, bone ash, kaolin, talcum, boron frit, anatase type titanium oxide, zinc oxide etc. is raw material, add water for ball milling, when ball milling, need to additionally add the carboxymethyl cellulose of glaze siccative weight 0.03%~0.05% and 0.1%~0.3% tripoly phosphate sodium STPP.325 mesh screen residues 1~2% of glaze slip after ball milling, mobility < 100S.During glazing, glaze slip proportion is 1.60~1.70.Form ground glaze layer thickness with 0.2mm~0.5mm.Be advisable.
All the other steps are as embodiment 1.Production test shows, produces selected Standard colour board and need to expend ink and be about 7.0g/ sheet; Produce continuously 10 order of classes or grades at school, because shower nozzle blocks the maintenance carried out 0 time.
Embodiment 3
Substantially the same manner as Example 1, institute's difference is, in ground-coat enamel, anatase type titanium oxide mass fraction is 1.5%.
In ground-coat enamel, chemical constitution is specific as follows: silicon-dioxide 55.5%~61.5%; Aluminum oxide: 8.5%~11.5%; Ferric oxide :≤0.09%; Calcium oxide: 7.5%~12.5%; Boron oxide: 7.5%~10.5%; Magnesium oxide :≤1.0%; Sodium oxide: 1.0%~2.0%; Zinc oxide: 5.0%~6.0%; Potassium oxide: 9.0%~10.0%; Lithium Oxide 98min :≤1.0%; Anatase type titanium oxide: 1.5%.
Production test shows, produces selected Standard colour board and need to expend ink and be about 6.8g/ sheet; Produce continuously 10 order of classes or grades at school, because shower nozzle blocks the maintenance carried out 0 time.
Embodiment 4
Substantially the same manner as Example 2, institute's difference is, in base glaze, anatase type titanium oxide mass fraction is 3.0%.
Production test surface, produces selected Standard colour board and need to expend ink and be about 7.5g/ sheet; Produce continuously 10 order of classes or grades at school, because shower nozzle blocks the maintenance carried out 1 time.Because containing more titanium oxide, ground-coat enamel whiteness has certain decline, causes the slightly biased Huang of color and luster.After separately this ground-coat enamel being burnt till, test whiteness is only 82 degree, lower than the demand that is not less than 85 degree of producing.
Embodiment 5
In the present embodiment, select boron calcium opaque glaze as ground-coat enamel, wherein contain mass fraction and be 0.5% attapulgite.
In ground-coat enamel, the shared mass fraction of attapulgite is 0.5%.Chemical constitution except attapulgite is specific as follows: silicon-dioxide 54.5%~60.5%; Aluminum oxide: 8.5%~11.5%; Ferric oxide/manganese oxide :≤0.1%; Calcium oxide: 7.5%~12.5%; Boron oxide: 7.5%~10.5%; Magnesium oxide :≤1.0%; Sodium oxide: 1.0%~2.0%; Zinc oxide: 5.5%~6.5%; Potassium oxide: 8.5%~9.5%; Lithium Oxide 98min :≤1.0%.
According to as above formula rate, calculate raw materials used formula, selecting in the present embodiment potassium felspar sand, silica powder, wollastonite, kaolin, talcum, boron frit, zinc oxide, attapulgite etc. is raw material, add water for ball milling, when ball milling, need to additionally add the carboxymethyl cellulose of glaze siccative weight 0.03%~0.05% and 0.1%~0.3% tripoly phosphate sodium STPP.325 mesh screen residues 1~2% of glaze slip after ball milling, mobility < 100S.During glazing, glaze slip proportion is 1.55~1.65.
Substantially as described in Example 1, difference is that model test color is baby pink to production technique.
Production test shows, produces selected Standard colour board and need to expend ink and be about 6.5g/ sheet; Produce continuously 10 order of classes or grades at school, because shower nozzle blocks the maintenance carried out midway 1 time.
Embodiment 6
The ground-coat enamel that the present embodiment adopts is the heterogeneous opaque glaze of boron phosphorus, and in ground-coat enamel, the shared mass fraction of attapulgite is 2.0%.Chemical constitution except attapulgite is specific as follows: silicon-dioxide 54.5%~60.5%; Aluminum oxide: 7.5%~10.5%; Ferric oxide/manganese oxide :≤0.1%; Calcium oxide: 1.5%~2.5%; Vanadium Pentoxide in FLAKES: 5.0%~9.5%; Boron oxide: 5.0%~9.5%; Magnesium oxide :≤0.5%; Sodium oxide: 1.0%~2.0%; Zinc oxide: 5.0%~6.0%; Potassium oxide: 9.0%~10.0%; Lithium Oxide 98min :≤1.0%.
According to as above formula rate, calculate raw materials used formula, selecting in the present embodiment potassium felspar sand, silica powder, wollastonite, kaolin, talcum, boron frit, bone ash, zinc oxide, attapulgite etc. is raw material, add water for ball milling, when ball milling, need to additionally add the carboxymethyl cellulose of glaze siccative weight 0.03%~0.05% and 0.1%~0.3% tripoly phosphate sodium STPP.325 mesh screen residues 1~2% of glaze slip after ball milling, mobility < 100S.During glazing, glaze slip proportion is 1.55~1.65.
Production technique is identical with embodiment 6.Production test shows, produces selected baby pink Standard colour board and need to expend ink and be about 6.0g/ sheet; Produce continuously 10 order of classes or grades at school, because shower nozzle blocks the maintenance carried out midway 0 time.
Embodiment 7
Basic identical with embodiment 5 techniques, institute's difference is, in ground-coat enamel, Attapulgite soil mass fraction is 4%.Production test shows, produces selected Standard colour board and need to expend ink and be about 6.2g/ sheet; Produce continuously 10 order of classes or grades at school, because shower nozzle blocks the maintenance carried out midway 0 time.
Embodiment 8
Basic identical with embodiment 6 techniques, institute's difference is, in ground-coat enamel, Attapulgite soil mass fraction is 5%.Production test shows, produces selected Standard colour board and need to expend ink and be about 6.5g/ sheet; Produce continuously 10 order of classes or grades at school, because shower nozzle blocks the maintenance carried out midway 1 time.When attapulgite usage quantity reaches 5%; ground-coat enamel firing temperature is higher; cause ground-coat enamel glaze quality variation, when producing the pattern of fine patterning, can cause certain influence to pattern resolution, and likely occur layering or cause the impact of transparency protected glaze quality variation.
Embodiment 9
Stannic oxide, as a kind of good opacifying agent, can not only improve glaze whiteness, and can improve glaze quality.In this embodiment, we are chosen on the ground-coat enamel basis of embodiment 4, the stannic oxide that interpolation mass fraction is 0.5%, and other technique is basic identical.
Add after stannic oxide, ground-coat enamel whiteness increases, and burns till separately by the test of whiteness instrument, and whiteness reaches 87 degree, meets Production requirement, and glaze is smoothly fine and smooth.
Production test shows, production test surface produces selected Standard colour board and need to expend ink and be about 7.3g/ sheet; Produce continuously 10 order of classes or grades at school, because shower nozzle blocks the maintenance carried out 1 time.
Embodiment 10
In this embodiment, we select on the ground-coat enamel basis of embodiment 8 again, the stannic oxide that interpolation mass fraction is 2%, and other technique is basic identical.
Add after stannic oxide, glaze quality obviously improves, and enamel is fine and smooth.Production test shows, produces selected Standard colour board and need to expend ink and be about 6.3g/ sheet; Produce continuously 10 order of classes or grades at school, because shower nozzle blocks the maintenance carried out midway 0 time.
For the limited of the scheme of the invention provides can be better described, provide following comparative example 1-4.
Comparative example 1
Select zirconium substrate glaze, it is raw material that zirconium substrate glaze be take albite, boron frit, zirconium silicate, kaolin, quartzite, and concrete component is albite 40%, boron frit 20%, zirconium silicate 10%, kaolin 10%, quartzy 20%.Add water for ball milling, when ball milling, need to additionally add the carboxymethyl cellulose of glaze siccative weight 0.03%~0.05% and 0.1%~0.3% tripoly phosphate sodium STPP.325 mesh screen residues 2~3% of glaze slip after ball milling, mobility < 100S.During glazing, glaze slip proportion is 1.59.
Select and produce as embodiment 1-4,9 purple model as the production technique of embodiment 1.
Production test shows, produces selected Standard colour board and need to expend ink and be about 10.2g/ sheet; Produce continuously 10 order of classes or grades at school, because shower nozzle blocks the maintenance carried out midway 5 times.
Comparative example 2
Select the explained hereafter model as comparative example 1, difference is, the Standard colour board that spray ink Printing is produced is as embodiment 5-8,10 LightPink model.Production test shows, produces selected Standard colour board and need to expend ink and be about 8.4g/ sheet; Produce continuously 10 order of classes or grades at school, because shower nozzle blocks the maintenance carried out midway 4 times.
Comparative example 3
Select in document " research of environmentally friendly high opaque glaze " disclosed with Ca
3(PO
3)
2, talcum, quartz and boron frit be essentially consist, preparation without opacifying agent R
2o-RO-Al
2o
3-SiO
2-P
2o
5-B
2o
3the environmentally friendly high opaque glaze of system is as ground-coat enamel.
Adopt as preparation technology's production of embodiment 1 as embodiment 1-4,9 purple model.
Production test shows, produces selected Standard colour board and need to expend ink and be about 9.8g/ sheet; Produce continuously 10 order of classes or grades at school, because shower nozzle blocks the maintenance carried out midway 4 times.
Comparative example 4
Select in document " research of environmentally friendly high opaque glaze " disclosed with Ca
3(PO
3)
2, talcum, quartz and boron frit be essentially consist, preparation without opacifying agent R
2o-RO-Al
2o
3-SiO
2-P
2o
5-B
2o
3the environmentally friendly high opaque glaze of system is as ground-coat enamel.
Adopt the production technique production model as comparative example 3.With comparative example's 3 differences are selected Standard colour boards for as embodiment 5-8,10 light red model.
Production test shows, produces selected Standard colour board and need to expend ink and be about 8.5g/ sheet; Produce continuously 10 order of classes or grades at school, because shower nozzle blocks the maintenance carried out midway 4 times.
By the comparison of embodiment 1-10 and comparative example 1-4, we can draw to draw a conclusion: ground-coat enamel is phosphorus boron or the heterogeneous opaque glaze of boron calcium, and in described ground-coat enamel, contain mass fraction and be 0.5%~5% anatase type titanium oxide or the technique of attapulgite and there is saving ink, reduce the advantage of the failure rates such as shower nozzle obstruction, and then reduce production costs, improve continuous production.
In addition, known zirconium has higher radioactivity, uses its glaze as opacifying agent to have higher radioactivity.And the ground-coat enamel that adopts does not contain zirconium in throwing glazed brick production technique provided by the invention, nor contain other highly radioactive raw mineral materials, therefore more environmental protection, less to harm.
Know-why of the present invention has below been described in conjunction with specific embodiments.These are described is in order to explain principle of the present invention, and can not be interpreted as by any way limiting the scope of the invention.Explanation based on herein, those skilled in the art does not need to pay performing creative labour can associate other embodiment of the present invention, within these modes all will fall into protection scope of the present invention.
Claims (7)
1. throw a glazed brick production technique, it comprises the steps:
Step 1) cloth moulding: select ceramic wall and floor bricks to produce conventional raw material, impact briquetting after ball milling, deironing, old, granulation, makes adobe;
Step 2) execute ground-coat enamel: by after the stamping forming brick bat drying of step 1, by the mode of glaze spraying or pouring glaze, execute ground-coat enamel;
Step 3) stamp: after ground-coat enamel is dry, select the ink-jet printed layer of ceramic ink jet printing machine ink-jet printed formation on ground-coat enamel;
Step 4) is executed cover-coat enamel: after stamp, by glaze spraying or pouring glaze mode, execute cover-coat enamel, described cover-coat enamel is transparent;
Step 5) is burnt till: enter roller kiln oxidizing atmosphere and burn till, 1100~1220 ℃ of firing temperatures, firing period 70~120 minutes;
Step 6) rubbing down: after burning till, treat that goods are cooling, carry out edging and polishing, obtain finished product;
It is characterized in that: step 2) described in ground-coat enamel be phosphorus boron or the heterogeneous opaque glaze of boron calcium, and in described ground-coat enamel, to contain mass fraction be 0.5%~3% anatase type titanium oxide or 0.5%~5% attapulgite.
2. a kind of throwing glazed brick production technique as claimed in claim 1, is characterized in that, in described ground-coat enamel, the shared mass fraction of anatase type titanium oxide is 1%~1.5%.
3. a kind of throwing glazed brick production technique as claimed in claim 1, is characterized in that, in described ground-coat enamel, the shared mass fraction of attapulgite is 2%~4%.
4. a kind of throwing glazed brick production technique as described in any one in claim 1-3, is characterized in that, contains mass fraction and be 0.5%~2% stannic oxide in described ground-coat enamel.
5. a kind of throwing glazed brick production technique as claimed in claim 1, is characterized in that, when described ground-coat enamel is the heterogeneous opaque glaze of boron calcium, described calcium constituent is introduced by wollastonite.
6. a kind of throwing glazed brick production technique as claimed in claim 1, is characterized in that, the iron in described ground-coat enamel or manganese element content sum≤0.1%.
7. a kind of throwing glazed brick production technique as claimed in claim 1, is characterized in that, described in to execute the ground glaze layer thickness that ground-coat enamel step forms be 0.2mm~0.5mm.
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Cited By (14)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN104130032A (en) * | 2014-08-01 | 2014-11-05 | 佛山市东鹏陶瓷有限公司 | Glazed brick manufacturing method and product |
| CN105036815A (en) * | 2015-06-24 | 2015-11-11 | 佛山市东鹏陶瓷有限公司 | Production method for travertine-imitated glazed brick |
| CN105036814A (en) * | 2015-06-24 | 2015-11-11 | 佛山市东鹏陶瓷有限公司 | Production method for natural travertine-imitated glazed brick, and obtained green brick structure |
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| CN110790510A (en) * | 2019-12-16 | 2020-02-14 | 黄奕雯 | Wear-resistant high-hardness ceramic glaze and preparation method thereof |
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| CN111943728B (en) * | 2020-08-19 | 2023-01-13 | 佛山欧神诺陶瓷有限公司 | Pattern-penetrating glaze and preparation method thereof, pattern-penetrating glazed brick and preparation method thereof |
| CN112299719A (en) * | 2020-11-19 | 2021-02-02 | 福建省德化县新宇陶瓷有限公司 | Cast iron alluvial gold glaze and method for preparing cast iron alluvial gold glaze ceramic product by using same |
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