CN109279780A

CN109279780A - A kind of ceramic glaze and preparation method thereof of resistance to alkali corrosion

Info

Publication number: CN109279780A
Application number: CN201811547292.5A
Authority: CN
Inventors: 邹建华; 汪大谷
Original assignee: HUNAN HUALIAN CERAMICS CO Ltd
Current assignee: HUNAN HUALIAN CERAMICS CO Ltd
Priority date: 2018-12-18
Filing date: 2018-12-18
Publication date: 2019-01-29

Abstract

The invention discloses a kind of ceramic glazes of resistance to alkali corrosion, including following component: boron frit, silica flour, spodumene, calcining zinc oxide, calcinated talc powder, kaolin, zirconium silicate, toner etc., preparation method are to stock up according to the mass parts of each component, and ball milling obtains glaze；Sieving obtains glaze slip after glaze goes out ball mill, water and electrolyte is added to adjust the concentration and thixotropy of glaze slip respectively, glazed body is taken to be immersed in glaze slip, glazed body is entered into roller kilns after drying, it is fired under the conditions of 1210-1240 DEG C, obtain the borosilicate glass body of high-compactness, various pigment, which are wrapped in vitreum, to be protected, not only firing temperature is lower, and guarantee compactness of the glaze after firing, realize a kind of high-compactness, high glaze, the complete glaze vitreum of glaze paint pore-free, the Si-O key for protecting glaze glass to be formed is not destroyed, it is resistant to the corrosion of highly basic.

Description

A kind of ceramic glaze and preparation method thereof of resistance to alkali corrosion

Technical field

The invention belongs to the ceramic glaze fields of inorganic non-metallic material, and in particular to a kind of ceramic glaze of resistance to alkali corrosion Material and preparation method thereof.

Background technique

The development of ceramics has the achievement of long history and radiance, and the process of porcelain is evolved to from pottery, enriches ceramics Intension and diversity, practicability, it occupies extremely important position in the culture and technological development history in China.In the modern life In, people are increasingly dependent on ceramics, and the requirement to ceramic performance is higher and higher.Glaze is to be covered on ceramics, enamel surfaces Glassy thin layer, have been widely used with preparation ceramics, the products such as enamel, have a long history, applied to every field.

The cleaning of in the 21st century, enamel tableware generallys use mechanization dish-washing machine, and especially America and Europe is for enamel tableware Acid-proof alkaline require it is higher, it is desirable that domestic ceramics is in 200 turns of dish-washing machines, high speed rotation after being heated with alkaline detergent, Can continuously wash one month it is non-discolouring, this mode of washing is very big to Ceramic glaze corrosivity.General daily ceramic glaze is equal Alkali corrosion resistance index for general acid-proofenamel, common acid-resistant glaze is 7g/24hm³, 60 DEG C of weak base below can only be met and be situated between Therefore the application of matter for 60 DEG C or more of highly basic medium client, needs special alkaline-resisting enamel.

Application No. is the patents of invention of 201711452019.X to disclose a kind of alkaline-resisting enamel, each component mass percent Are as follows: SiO₂: 55%~66%；B₂O₃: 10%~15%；Li₂O:6~8%；Na₂O:4~5%；K₂O:4~5%；CoO:0.6% ~0.9%；ZrO₂: 3%~10%；AL₂O₃: 3~5%；Clay: 3~5%.But due to the alkali metal oxide of addition compared with More, final glazed structure has the problems such as micro crystal and more surface pore than more loose, under the corrosion resistance for causing glaze Drop.

Summary of the invention

The purpose of the present invention is overcome the deficiencies of the prior art and provide a kind of ceramic glaze of resistance to alkali corrosion and its preparation Method.

The present invention provides a kind of ceramic glazes of resistance to alkali corrosion, including following component and respective parts by weight: boron frit 30-40 parts, 3-15 parts of silica flour, 10-20 parts of spodumene, 5-15 parts of calcining zinc oxide, 3-10 parts of calcinated talc powder, kaolin 5- 20 parts, 5-15 parts of zirconium silicate, 1-10 parts of toner.

Preferably, the toner is one of cobalt black, silver grey and vanadium orchid.

The present invention also provides a kind of preparation methods of the ceramic glaze of resistance to alkali corrosion, comprising the following steps:

1) it stocks up according to each component and each component mass parts, ball milling obtains glaze；

2) glaze is sieved after going out ball mill, obtains glaze slip, and water and electrolyte is added to adjust the concentration and thixotropy of glaze slip respectively；

3) it takes glazed body to be immersed in glaze slip, glazed body is entered into roller kiln burning into maximum sintering temperature 1210-1240 after drying DEG C to get.

Preferably, ball milling uses high alumina ballstone in step 1), and wherein the mass ratio of raw material, high alumina ballstone and water is 1:1.8: 0.6。

Preferably, the high alumina ballstone includes big ballstone, middle ballstone and small ballstone, the big ballstone, middle ballstone and bead The mass ratio of stone is 1:2:2.

Preferably, Ball-milling Time is 20-28h in step 1).

Preferably, step 1) the 325 mesh screen residue 0.03-0.06% of glaze fineness

Preferably, the sieve of the step 2) sieving is 160 mesh.

Preferably, the concentration of the step 2) glaze slip is 45-55 Baume degrees.

Preferably, the step 2) electrolyte is sal-ammoniac or sodium tripolyphosphate, and additional amount is total matter of glaze slip and water The 0.05-0.1% of amount.

Preferably, the drying condition of step 3) is 50-60 DEG C of dry 2-4h.

Preferably, firing period is 4.5-5.5h in step 3).

Preferably, sintering curve is fast burning roller kilns routine sintering curve in step 3), and firing atmosphere is oxidizing atmosphere.

Preferably, finally obtained glazed body glazed thickness is 0.25-0.4mm.

Boron frit: primary raw material is borax, adds partial sodium carbonate, feldspar, quartz, and antiflux obtains, and is main molten Agent.

Silica flour: main component is silica, and silica is the main component for generating vitreum in glaze, is increased Quartz content can improve the melting temperature and viscosity of glaze in glaze, reduce the coefficient of expansion of glaze.It is so that glaze has height simultaneously The main reason for intensity, hardness, ability of wearability and chemical corrosion resistance.

Spodumene: main component Li₂O is strong fluxing agent, reduces the melting temperature and viscosity of glaze, increases the refraction of melt Rate, thus the effects of improving glossiness, reducing the coefficient of expansion, increase the wearability having.

Calcining zinc oxide: keeping glaze meltable, reduces the firing temperature of glaze, increases elasticity, mechanical strength and melting behaviour etc. and makees With.It is after calcining to reduce the thixotropy of zinc oxide with the main distinction of non-calcining zinc oxide, improves the operating characteristics of glaze.

Calcinated talc powder: promoting middle layer to be formed, and improves hardness of glaze surface, and main ingredient magnesia introduces the corrosion resistant of enhancing glaze Ability.It is that the layer structure that raw talcum is destroyed after calcining is conducive to improve grinding efficiency and glaze with the main distinction of raw talcum powder Physical property.

Kaolin: introducing the substances such as aluminium oxide and silica, so that glaze is had suspension and stability, fuses into energy in melt Si-O key is prevented to be broken, to improve chemical stability.

Zirconium silicate: main ingredient zirconium oxide is introduced into glaze and increases whiteness, and akaline liquid hardly enters after zirconium enters melt, To not by caustic corrosion.

Toner: adjusting the color of glaze, can obtain the glaze of various colors.

Qin Libang etc. is in " influence of the mixing alkali/alkaline earth metal effect to medium temperature fritted glaze alkali resistance ", in SiO₂、 Al₂O₃、Fe₂O₃、Li₂O、Na₂O, on the basis of CaO glaze formula, shadow of research binary alkaline-earth metal CaO, the MgO to frit alkali resistance It rings, it is indicated that work as Li₂O and Na₂When the molar ratio of O is 1, the alkali resistance of frit is best, and alkali erosion ratio reaches minimum 1.52%, right The alkali resistance grade for the glaze answered is 1 grade；CaO is to alkali metal (Li₂O+Na₂O depressor effect) is obvious, and frit is resistance to after addition CaO Alkalinity is greatly improved, as CaO/ (Li₂O+Na₂O) be 1.22 when, frit alkali resistance is best, and alkali erosion ratio reaches minimum 1.03%, the alkali resistance grade of corresponding glaze is 1 grade；When binary alkaline-earth metal mixes, CaO/MgO molar ratio is alkaline-resisting when being 8.2 Property is best, and alkali erosion ratio reaches minimum 1.01%, and the alkali resistance of corresponding glaze is most strong.And pass through the alkali erosion ratio of frit sample It is found that when being less than or greater than this ratio, alkali erosion ratio increases curve, the alkali resistance decline of frit, the alkali resistance of corresponding glaze Also can decline.Therefore, those skilled in the art are when preparing glaze, it will usually by CaO, MgO, Li₂O and Na₂The molar ratio of O controls In 2.44:0.3:1:1, to improve the alkali resistance of glaze to the maximum extent.

The present invention properly increases the content of MgO by reducing the amount of CaO, then passes through addition B₂O₃、K₂O、ZnO、ZrO₂, And Li₂O、Na₂O、Al₂O₃、Fe₂O₃、SiO₂Etc. components, under the conditions of 1210-1240 DEG C generate high-compactness borosilicate Vitreum, various pigment, which are wrapped in vitreum, to be protected.The alkali resistance of obtained glaze is greatly improved, not only It realizes resistance to highly basic grade and reaches 0 grade, reached the European Union's cleaning performance of resistance to dish-washing machine standard, while ensure that the gloss of glaze Degree, thermal stability and hardness of glaze surface.

The main component of boron frit is borax, and borax is white crystalline powder, 1575 DEG C of boiling point, is dissolved in water, density 1.69- 1.72, it is made after frit as flux body, with SiO₂、Al₂O₃It reacts, forms new eutectic, a large amount of boron is molten at this time Agent and a small amount of SiO₂、Al₂O₃The lesser mobility melt of high temperature viscosity easy to form, ZnO and SiO₂Reaction generates willemite (2ZnO·SiO₂), it can form low co-melting body with some flux；Add partial lithiation object again, zirconium compound enter it is conformal after furnace body At the vitreum of high-compactness, melting can be mixed with various pigment, achieve the purpose that the resistance to alkali corrosion of glaze of the present invention.This The calcining system of invention is as mass production sample, and without particular/special requirement, firing temperature is lower, and energy consumption is small, is suitble to extensive raw It produces, while various physical and chemical indexes (thermal stability, the lead cadmium amount of melting out, hardness of glaze surface) can reach national related daily-use fine mark It is quasi-.

Conventional ceramic glaze can be divided into feldspar glaze, lime glaze, zinc glaze, lithium glaze etc. by main flux.(1) feldspar glaze: with oxygen Change potassium, sodium oxide molybdena as main flux, addition has been lacked silica, zinc oxide, calcium oxide, magnesia, kaolin etc. and has been formulated, and makes It is wide with range, but since alkali metal oxide is more, glazed structure is than more loose；(2) lime glaze: being main molten with calcium oxide Agent, it usually needs addition silica, potassium oxide, sodium oxide molybdena or magnesia, zinc oxide, kaolin etc. are formulated, since calcium contains Amount is higher, can increase the corrosion resistance of glaze paint, but glaze surface is relatively rough, can with the naked eye tell fine grain flower；(3) zinc glaze: Using zinc oxide as main flux, small amounts silicon is added, glass powder, kaolin etc. are formulated, and glaze paint is smooth, only makees crystalline glaze Formula；(4) lithium glaze: using lithia as main flux, adding a small amount of kaolin, silica, potassium oxide etc. and be formulated, expansion system Number is smaller, uses as heat resisting porcelain.

Above-mentioned several ceramic glazes have the shortcomings that one it is common, be exactly glazed structure than more loose, there is micro crystal and table The problems such as face pore is more causes the corrosion resistance of glaze to decline.

The present invention properly increases the content of MgO by reducing the amount of CaO, then passes through addition B₂O₃、K₂O、ZnO、ZrO₂, And Li₂O、Na₂O、Al₂O₃、Fe₂O₃、SiO₂Etc. components, under the conditions of 1210-1240 DEG C generate high-compactness borosilicate Vitreum, various pigment, which are wrapped in vitreum, to be protected, and the Si-O key for protecting glaze glass to be formed is not destroyed, so as to Enough it is resistant to the corrosion of highly basic.

Glaze is divided into low temperature glaze, intermediate glaze and high-temperature glaze by the temperature of firing.

Low temperature glaze fire temperature it is lower, at 1200 DEG C hereinafter, being easy to be completely melt glaze not, cause glaze paint it is coarse, There is gap, rough, influences beautiful and service performance；The temperature that high-temperature glaze is fired is higher, at 1300 DEG C or more, be easy to cause glaze Expect penetration, generate bubble, and energy consumption is high, is not suitable for large-scale production.

The present invention is fired using medium temperature, and temperature is 1210-1240 DEG C, and obtained ceramic glaze effect is good, and glaze paint light, Fine and smooth, pore-free, production energy consumption are low.

The present invention is sieved to glaze, can prevent glaze from bringing impurity in ball mill process out, such as ball milling in ball mill Medium (i.e. ballstone and ball milling liner) particle and external dust impurity etc., general 160 mesh screen.

Zinc oxide of the invention, magnesia, take calcining zinc oxide and calcined magnesia, reduce the thixotropy of glaze slip, The operating characteristics of glaze slip is improved, the glazed thickness of green body is between 0.25-0.4mm after glazing.

In production, mainly pass through Ford cup does comparative test to thixotropy, and mainly by practice test, i.e. glaze makes With easily operated in the process, such as excess glaze, glaze bubble glaze planar defect is not generated.Substantially by glazing operator and quality inspector It adjusts by rule of thumb.

The boron frit, originates from Hunan Province's Li- ling city, sand-like；

The silica flour originates from Hunan Province's Li- ling city, fine sand shape；

The spodumene originates from Hunan Province's Li- ling city, powdered；

The calcinated talc powder originates from Yulin City on Guangxi, content of magnesia >=30%；

The calcining zinc oxide originates from zhuzhou, hunan province city, zinc oxide content >=98%；

The zirconium silicate originates from Yulin City on Guangxi, zirconia content >=62%；

The kaolin, originates from Longyan；

The toner originates from Zibo City of Shandong Province.

Beneficial effects of the present invention:

The present invention properly increases the content of MgO by reducing the amount of CaO, then passes through addition B₂O₃、K₂O、ZnO、ZrO₂, And Li₂O、Na₂O、Al₂O₃、Fe₂O₃、SiO₂Etc. components, under the conditions of 1210-1240 DEG C generate high-compactness borosilicate Vitreum, various pigment, which are wrapped in vitreum, to be protected, and not only firing temperature is lower, and guarantee glaze firing with Compactness afterwards realizes that the complete glaze vitreum of a kind of high-compactness, high glaze, glaze paint pore-free, protection glaze glass are formed Si-O key is not destroyed, and is resistant to the corrosion of highly basic.

Ceramic glaze of the invention not only realizes resistance to highly basic grade and reaches 0 grade, has reached European Union's cleaning of resistance to dish-washing machine Energy standard, while ensure that glossiness, thermal stability and the hardness of glaze surface of glaze, use scope is wider.

Specific embodiment

Each component Chemical bath deposition such as table 1 in raw material.

Each component Chemical bath deposition in 1 raw material of table

	SiO₂	Al₂O₃	Fe₂O₃	B₂O₃	CaO	MgO	K₂O	Na₂O	Li₂O	ZnO	ZrO₂
												Boron frit	64.57	5.52	0.1	3	10	3	3	2		1
Silica flour	99.2	0.34	0.1
												Spodumene	68.44	23.78	0.18		0.17	0.12	0.25	0.25	6.5
Calcining zinc oxide										98.5
												Calcinated talc powder	63.5	0.2	0.19		4.93	30.18
Kaolin	50.77	33.66	0.3		0.06	0.24	3.18	0.85
												Zirconium silicate	35.2	0.3	0.1								62.7

To make the objectives, technical solutions, and advantages of the present invention clearer, below in conjunction with specific embodiment, to this hair Bright further description.

Embodiment 1

Take 30 parts of boron frit in parts by weight, 10 parts of silica flour, 15 parts of spodumene, 8 parts of calcining zinc oxide, calcinated talc powder It 3 parts, 18 parts of kaolin, 12 parts of zirconium silicate, silver grey 4 parts, is added in ball mill, then adds water for ball milling, Central Plains into ball mill Material: high alumina ballstone: the mass ratio of water is 1:1.8:0.6, big ballstone in high alumina ballstone, middle ballstone, small ballstone mass ratio be 1: 2:2, Ball-milling Time are to obtain the fineness control of glaze for 24 hours, after ball milling in 325 mesh screen residue 0.03-0.06%, and glaze goes out ball mill 160 meshes are crossed afterwards, obtain glaze slip, then measure the concentration of glaze slip, and concentration of glaze slip needed for being determined according to different types adds water tune The concentration for saving glaze slip is 45 Baume degrees, while the thixotropy that the sodium tripolyphosphate adjusting glaze slip of gross mass 0.05% is added reaches most Good situation.Glazed body is taken to be immersed in glaze slip, then the dry 3h at 50 DEG C, enters roller kiln burning into maximum temperature for glazed body after drying It is 1220 DEG C, firing period 5h, sintering curve is fast burning roller kilns routine sintering curve, and firing atmosphere is oxidizing flame atmosphere, Finally obtained glazed body glazed thickness is 0.25mm.

Embodiment 2

Take 40 parts of boron frit in parts by weight, 10 parts of silica flour, 10 parts of spodumene, 5 parts of calcining zinc oxide, calcinated talc powder It 5 parts, 20 parts of kaolin, 8 parts of zirconium silicate, 2 parts of cobalt black, is added in ball mill, then adds water for ball milling, Central Plains into ball mill Material: high alumina ballstone: the mass ratio of water is 1:1.8:0.6, big ballstone in high alumina ballstone, middle ballstone, small ballstone mass ratio be 1: 2:2, Ball-milling Time 28h, the fineness that glaze is obtained after ball milling are controlled in 325 mesh screen residue 0.03-0.06%.Glaze goes out ball mill 180 meshes are crossed afterwards, obtain glaze slip, then measure the concentration of glaze slip, and concentration of glaze slip needed for being determined according to different types adds water tune The concentration for saving glaze slip is 50 Baume degrees, while the thixotropy that the ammonium chloride adjusting glaze slip of gross mass 0.08% is added reaches best shape Condition.Glazed body is taken to be immersed in glaze slip, then the dry 2h at 60 DEG C, glazed body enters roller kiln burning into maximum temperature 1230 after drying DEG C, firing period 5.5h, sintering curve is fast burning roller kilns routine sintering curve, and firing atmosphere is oxidizing atmosphere, final The glazed body glazed thickness arrived is 0.3mm.

Embodiment 3

Take 35 parts of boron frit in parts by weight, 15 parts of silica flour, 20 parts of spodumene, 15 parts of calcining zinc oxide, calcination of talc 8 parts of powder, 5 parts of kaolin, 5 parts of zirconium silicate, vanadium is 10 parts blue, is added in ball mill, then add water for ball milling, Central Plains into ball mill Material: high alumina ballstone: the mass ratio of water is 1:1.8:0.6, big ballstone in high alumina ballstone, middle ballstone, small ballstone mass ratio be 1: 2:2, Ball-milling Time 20h, the fineness that glaze is obtained after ball milling are controlled in 325 mesh screen residue 0.03-0.06%.Glaze goes out ball mill 160 meshes are crossed afterwards, obtain glaze slip, then measure the concentration of glaze slip, and concentration of glaze slip needed for being determined according to different types adds water tune The concentration for saving glaze slip is 55 Baume degrees, while the thixotropy that 0.1% sodium tripolyphosphate adjusting glaze slip is added reaches optimum. Take glazed body to be immersed in glaze slip, then the dry 4h at 50 DEG C, it is dry after glazed body enter roller kiln burning at, maximum temperature is 1240 DEG C, Firing period is 4.5h, and sintering curve is fast burning roller kilns routine sintering curve, and firing atmosphere is oxidizing atmosphere, finally obtained Glazed body glazed thickness is 0.4mm.

Comparative example 1

Take 30 parts of boron frit in parts by weight, 10 parts of silica flour, 15 parts of spodumene, 8 parts of zinc oxide, 3 parts of talcum powder, kaolinite 18 parts of soil, 12 parts of zirconium silicate, silver grey 4 parts, is added in ball mill, subsequent operation is the same as embodiment 1, finally obtained glazed body glaze layer With a thickness of 0.25mm.

Comparative example 2

Take 30 parts of boron frit in parts by weight, 10 parts of silica flour, 15 parts of spodumene, 8 parts of calcining zinc oxide, calcinated talc powder It 3 parts, 18 parts of kaolin, 12 parts of zirconium silicate, silver grey 4 parts, is added in ball mill, the subsequent operation for preparing glaze slip is the same as embodiment 1. Glazed body is taken to be immersed in glaze slip, then the dry 3h at 50 DEG C, enters roller kiln burning into maximum temperature 1180 for the glazed body after drying DEG C, firing period 5h, sintering curve is fast burning roller kilns routine sintering curve, and firing atmosphere is oxidizing atmosphere, is finally obtained Glazed body glazed thickness be 0.25mm.

Comparative example 3

Take 30 parts of boron frit in parts by weight, 10 parts of silica flour, 15 parts of spodumene, 8 parts of calcining zinc oxide, calcinated talc powder It 3 parts, 18 parts of kaolin, 12 parts of zirconium silicate, silver grey 4 parts, is added in ball mill, the subsequent operation for preparing glaze slip is the same as embodiment 1. Glazed body is taken to be immersed in glaze slip, then the dry 3h at 50 DEG C, enters roller kiln burning into maximum temperature 1300 for the glazed body after drying DEG C, firing period 5h, sintering curve is fast burning roller kilns routine sintering curve, and firing atmosphere is oxidizing atmosphere, is finally obtained Glazed body glazed thickness be 0.25mm.

Comparative example 4

Using the frit in " influence of the mixing alkali/alkaline earth metal effect to medium temperature fritted glaze alkali resistance " such as Qin Libang G7, additional 5% kaolin prepare fritted glaze according to its process flow and technological parameter.

The properties of the obtained ceramic glaze of embodiment 1-3 and comparative example 1-4 are compared, the results are shown in Table 2 and table 3.Wherein:

Alkali resistance test: referring to BS EN 12875-4:2006 standard, in the environment of temperature is 75 ± 1 DEG C, by sample It is immersed in 0.5% special alkaline detergent solution, is taken out after 16h, dried with hot water injection, then with clean rag.Then it updates The sample just taken out is placed into wherein, sample is taken out after 16h by the cleaning solution in test container, is cleaned and is dried, and is observed The appearance corrosion phenomenon of sample, makes its assessment grade, the results are shown in Table 2；

Glossiness: being detected by color difference meter, the results are shown in Table 3；

Thermal stability: using heating chilling method, ceramic glaze product being placed in the electric furnace for being warming up to 180 DEG C, 30min is kept the temperature, ceramic glaze product is put into rapidly 10min in 20 DEG C of water later, product is taken out and is dried, check for splitting It line and bursts, the results are shown in Table 3；

Hardness of glaze surface: delineating product surface with metal cutlery, sees glaze paint whether there is or not trace, damage, steel edge used is not Family name's hardness the results are shown in Table 3 between 6-7.

The alkali resistance test result of 2 ceramic glaze of table

	Cosmetic variation	Rank
			Embodiment 1	It is unchanged	0
Embodiment 2	It is unchanged	0
			Embodiment 3	It is unchanged	0
Comparative example 1	Half mute, lighter	2
			Comparative example 2	Lighter	1
Comparative example 3	Lighter	1
			Comparative example 4	It is unchanged	1

The performance of 3 ceramic glaze of table compares

	Glossiness (GU)	Thermal stability	Hardness of glaze surface
				Embodiment 1	82	Flawless	No marking
Embodiment 2	85	Flawless	No marking
				Embodiment 3	83	Flawless	No marking
Comparative example 1	77	Slight crackle	No marking
				Comparative example 2	69	Flawless	There is shadow scratch
Comparative example 3	76	Slight crackle	No marking
				Comparative example 4	78	Slight crackle	There is shadow scratch

Data can be seen that the ceramic glaze comprehensive performance for the resistance to alkali corrosion that embodiment 1-3 is obtained from table 2 and table 3 Excellent, alkali resistance is higher, not only realizes resistance to highly basic grade and reaches 0 grade, has reached the European Union's cleaning performance of resistance to dish-washing machine standard, together When ensure that glossiness, thermal stability and the hardness of glaze surface of glaze.Illustrate that the present invention passes through the amount for reducing CaO, and suitably mentions The content of high MgO, then pass through addition B₂O₃、K₂O, calcining zinc oxide and Li₂O、Na₂O、Al₂O₃、Fe₂O₃、SiO₂Etc. components, It is burnt under the conditions of 1210-1240 DEG C, as a result increases the density of ceramic glaze, reduced the fracture tendency of Si-O key, add A small amount of zirconium dioxide enhances the ability of the resistance to highly basic of ceramic glaze so that finally obtained ceramic glaze have high-compactness, High glaze, glaze paint pore-free, and there is excellent resistance to alkali corrosion performance.

Through embodiment 1 compared with comparative example 1, it is known that the present invention uses calcinated talc powder and calcining zinc oxide, reduces The thixotropy of glaze slip, improves the operating characteristics of glaze slip, does not generate such as excess glaze, glaze bubble glaze planar defect, and alkaline-resisting higher grade, Higher glossiness and good thermal stability are macroscopically shown, while color change will not occur for immersion in strong base solution Change, there is excellent resistance to alkali corrosion.

By comparing embodiment 1 and comparative example 2 and comparative example 3, the present invention is fired in 1210-1240 DEG C of medium temperature, is obtained The alkaline-resisting higher grade of ceramic glaze, glaze paint is bright, fine and smooth, pore-free, shows higher glossiness, excellent resistance to alkali corrosion And thermal stability and higher hardness.

By comparing embodiment 1 and comparative example 4, what the formula and preparation method of ceramic glaze through the invention obtained Ceramic glaze not only realizes resistance to highly basic grade and reaches 0 grade, has reached the European Union's cleaning performance of resistance to dish-washing machine standard, while ensure that glaze Glossiness, thermal stability and the hardness of glaze surface of material.This is because other than being added to small amounts zirconium to improve alkali resistance, this Invention properly increases the content of MgO by reducing the amount of CaO, then passes through addition B₂O₃、K₂O、ZnO、ZrO₂And Li₂O、 Na₂O、Al₂O₃、Fe₂O₃、SiO₂Etc. components, under the conditions of 1210-1240 DEG C generate high-compactness borosilicate glass body, respectively Kind of pigment, which is wrapped in vitreum, to be protected, and guarantees compactness of the glaze after firing, realizes a kind of high-compactness, height The integral ceramic glaze of gloss, glaze paint pore-free, the Si-O key for protecting ceramic glaze to be formed are not destroyed, and are resistant to highly basic Corrosion, while there is superior thermal stability and higher hardness.

Claims

1. a kind of ceramic glaze of resistance to alkali corrosion, which is characterized in that including following component and respective parts by weight: boron frit 30- 40 parts, 3-15 parts of silica flour, 10-20 parts of spodumene, 5-15 parts of calcining zinc oxide, 3-10 parts of calcinated talc powder, kaolin 5-20 Part, 5-15 parts of zirconium silicate, 1-10 parts of toner.

2. the ceramic glaze of resistance to alkali corrosion as described in claim 1, which is characterized in that the toner is cobalt black, it is silver grey and One of vanadium orchid.

3. a kind of preparation method of the ceramic glaze of resistance to alkali corrosion as claimed in claim 1 or 2, which is characterized in that including Following steps:

3) take glazed body to be immersed in glaze slip, it is dry after by glazed body enter roller kiln burning at, maximum temperature be 1210-1240 DEG C to get.

4. the preparation method of the ceramic glaze of resistance to alkali corrosion as claimed in claim 3, which is characterized in that the step 1) ball Mill uses high alumina ballstone, wherein raw material: high alumina ballstone: the mass ratio of water is 1:1.8:0.6.

5. the preparation method of the ceramic glaze of resistance to alkali corrosion as described in claim 3 or 4, which is characterized in that step 1) institute State 325 mesh screen residue 0.03-0.06% of glaze fineness.

6. the preparation method of the ceramic glaze of resistance to alkali corrosion as described in claim 3 or 4, which is characterized in that step 2) institute The sieve for stating sieving is 160 mesh.

7. the preparation method of the ceramic glaze of resistance to alkali corrosion as described in claim 3 or 4, which is characterized in that step 2) institute The concentration for stating glaze slip is 45-55 Baume degrees.

8. the preparation method of the ceramic glaze of resistance to alkali corrosion as described in claim 3 or 4, which is characterized in that step 2) institute Stating electrolyte is sal-ammoniac or sodium tripolyphosphate, and additional amount is the 0.05-0.1% of the gross mass of glaze slip and water.

9. the preparation method of the ceramic glaze of resistance to alkali corrosion as described in claim 3 or 4, which is characterized in that step 3) institute The period for stating firing is 4.5-5.5h.