The working method of multilayer color microlite ceramic tile
Technical field
The present invention relates to material of construction processing technique field, the working method of the microlite ceramic board of especially a kind of multilayer color.
Background technology
Microlite ceramic tile is extensively liked by masses because of the multiple advantage of microlite, along with the raising that people need, need the visual experience of one kind of multiple pattern color overlaps or different colours in the microlite ceramic tile of the vision effect without level, to decorate the needs of the indoor decorations such as video wall. Existing microlite ceramic board is all generally adopt the technique of sintering to make, namely raw material prepare after melting under the high temperature higher than 1000 ° of C, then low temperature crystallization, carrying out cutting out again after forming microlite plate becomes microlite ceramic board. Such technique due to the distributions of feed particles under molten state relatively even, the microlite after crystallization is as a whole, is a Rotating fields, it does not have gradation sense. If it is intended to layering, there is enterprise that plate sinters into thinner polylith, it is being glued together, forming the plate of one piece of multilayer, owing to laminated needs various tackiness agent, in use the microlite ceramic board of this kind of laminated is very insecure, and the use of tackiness agent, causing the smooth finish of microlite ceramic tile, the performances such as optical filtering are all greatly affected, and thus cannot normally use.
Summary of the invention
Problem to be solved by this invention is to provide the working method of a kind of multilayer color microlite ceramic tile, could not be divided into, in existing micro-crystal stone plate structure, the problem causing color to be divided into solve.
In order to solve the problem, the technical scheme of the present invention is: the working method of this multilayer color microlite ceramic tile comprises a kind of multilayer color microlite ceramic tile of processing, described multilayer color microlite ceramic tile comprises crystallite slabstone body, and described crystallite slabstone body includes the crystalline stone materials layer that at least three layer stackup are arranged; The raw material of described crystalline stone materials layer comprises the component of following weight part: silicon-dioxide 60~70 parts, 16~20 parts, calcium carbonate, 6~10 parts, calcium oxide, 3~4 parts, zinc oxide, barium carbonate 2~3 parts, boron oxide 2~3 parts;The raw material of the described crystalline stone materials layer of even number layer also includes sodium oxide 1~1.5 part; Also including the painted oxide compound of 0.6~0.8 part in the raw material of every layer of described crystalline stone materials layer, described painted oxide compound includes ferric oxide, iron protoxide, aluminium sesquioxide, cupric oxide, Manganse Dioxide;
Its working method comprises the following steps:
A, the raw material pulverizing by even number layer crystalline stone materials layer, batching, melting 1.8 hours~2.6 hours at the temperature of 1500 ° of C~1550 ° C afterwards, naturally cooling 8 hours~10 hours again, form crystal grain, being divided by crystal grain in the crystallization die needing part number, recrystallize, Tc is 1000 ° of C~1020 ° C, crystallization time is 0.5 hour, forms the brilliant layer of even number layer;
B, by the raw material pulverizing of the crystalline stone materials layer of odd number layer, batching, melting 1.8 hours~2.6 hours at the temperature of 1500 ° of C~1550 ° C afterwards, naturally cooling 8 hours~10 hours again, form crystal grain, by crystal grain in crystallization die, the even number layer crystal layer obtained into steps A is allowed again again on insertion or described brilliant layer among described crystal grain, carry out crystallization again, Tc is 1000 ° of C~1020 ° C, crystallization time is 0.5 hour, shape in a pair odd number and the even number odd number layer that adds the three brilliant layers to or the twin crystal layer of shape odd number and even number layer in a pair right,
C, successively repeating step A and B complete multiple brilliant layer to crystallization, putting into first more on request successively in crystallization die right to last layer crystal layer, again carry out crystallization, Tc is 1000 ° of C~1020 ° C, crystallization time is 0.8 hour, forms microlite plate;
D, plate is used that plasma cutting machine is cut, the processing such as picture mosaic, form microlite ceramic board.
In order to solve the problem, the technical scheme of the present invention can also be: the working method of this multilayer color microlite ceramic tile comprises processing one and comprises multilayer color microlite ceramic tile, described multilayer color microlite ceramic tile comprises crystallite slabstone body, and described crystallite slabstone body includes the crystalline stone materials layer that at least three layer stackup are arranged; The raw material of described crystalline stone materials layer comprises the component of following weight part: silicon-dioxide 60~70 parts, 16~20 parts, calcium carbonate, 6~10 parts, calcium oxide, 3~4 parts, zinc oxide, barium carbonate 2~3 parts, boron oxide 2~3 parts; The raw material of the described crystalline stone materials layer of even number layer also includes sodium oxide 1~1.5 part; Also including the painted oxide compound of 0.6~0.8 part in the raw material of every layer of described crystalline stone materials layer, described painted oxide compound includes ferric oxide, iron protoxide, aluminium sesquioxide, cupric oxide, Manganse Dioxide;
Its working method comprises the following steps:
A, by the raw material of even number layer crystalline stone materials layer except painted oxide compound, equal co-grinding, batching, melting 1.8 hours~2.6 hours at the temperature of 1500 ° of C~1550 ° C afterwards, sprinkle painted oxide compound in fused solution dignity after taking-up, then naturally cooling 8 hours~10 hours, form crystal grain, being divided by crystal grain in the crystallization die needing part number, recrystallize, Tc is 1000 ° of C~1020 ° C, crystallization time is 0.5 hour, forms the brilliant layer of even number layer;
B, by the raw material pulverizing of the crystalline stone materials layer of odd number layer, batching, melting 1.8 hours~2.6 hours at the temperature of 1500 ° of C~1550 ° C afterwards, in fused solution dignity, painted oxide compound is sprinkled after taking-up, naturally cooling 8 hours~10 hours again, form crystal grain, by crystal grain in crystallization die, the even number layer crystal layer obtained into steps A is allowed again again on insertion or described brilliant layer among described crystal grain, carry out crystallization again, Tc is 1000 ° of C~1020 ° C, crystallization time is 0.5 hour, shape in a pair odd number and the even number odd number layer that adds the three brilliant layers to or the twin crystal layer of shape odd number and even number layer in a pair right,
C, successively repeating step A and B complete multiple brilliant layer to crystallization, putting into first more on request successively in crystallization die right to last layer crystal layer, again carry out crystallization, Tc is 1000 ° of C~1020 ° C, crystallization time is 0.8 hour, forms microlite plate;
D, plate is used that plasma cutting machine is cut, the processing such as picture mosaic, form microlite ceramic board.
In technique scheme, more specifically technical scheme can be: the thickness of even number layer described crystalline stone materials layer is less than the thickness of the described crystalline stone materials layer of odd number layer.
Owing to have employed technique scheme, the present invention compared with prior art has following useful effect:
1, the layering microlite ceramic tile of the working method of this multilayer color microlite ceramic tile adopts the mode that multilayer crystalline stone materials layer stackup is arranged, and makes specific refractory power different due to crystallization during difference, and multilayer crystalline stone materials layer stackup makes the effect visually producing stacking; Every layer of crystalline stone materials layer adds and may, in the oxide compound of different colours, make it in distinct colors; In addition, every layer of crystalline stone materials layer can adopt variant material, more increases the vision effect of stacking, and especially crystalline stone materials layer at even number layer adds a certain amount of sodium oxide more, effect is better, thus can not shelter from the color of other layers too much by too black suction light again; The crystalline stone materials layer stackup of different thickness, more can embody the visual experience of level;
2, present method use the mode that repeatedly sinters carry out brilliant layer to sintering, finally complete the crystallization of multilayer crystalline stone materials layer, than use binding agent bonding, compact structure is firm, and construction, with easy to use, does not have again binding agent to smooth finish, the impact of the performances such as optical filtering, gradation sense is strong; These metal oxides can also be particle, and crystallization makes to be spread on crystal surface, and what form not same color asterism intersperses effect.
Accompanying drawing explanation
Fig. 1 is the front view of the embodiment of the present invention one.
Embodiment
Below in conjunction with accompanying drawing, the embodiment of the present invention is described in further detail:
Embodiment one:
The working method of this multilayer color microlite ceramic tile as shown in Figure 1, comprise crystallite slabstone body, crystallite slabstone body includes the crystalline stone materials layer that at least three layer stackup are arranged, here it it is three layers, it is followed successively by the first layer crystalline stone materials layer 1, second layer crystalline stone materials layer 2, third layer crystalline stone materials layer 3 under upper, the mode adopting multilayer crystalline stone materials layer stackup to arrange, makes specific refractory power different due to crystallization during difference, and multilayer crystalline stone materials layer stackup makes the effect visually producing stacking.
The first layer crystalline stone materials layer 1 raw material comprises the component of following weight part: silicon-dioxide 60 parts, 20 parts, calcium carbonate, 6 parts, calcium oxide, 4 parts, zinc oxide, barium carbonate 2 parts, boron oxide 3 parts, Manganse Dioxide 0.6 part, small Manganse Dioxide powdery particulate dispersion can be selected in the surface of this layer, form the loose point of the different pale pink of size.
The raw material of second layer crystalline stone materials layer 2 includes the component of following weight part: silicon-dioxide 60 parts, 20 parts, calcium carbonate, 6 parts, calcium oxide, 4 parts, zinc oxide, barium carbonate 2 parts, boron oxide 3 parts, sodium oxide 1 part, ferric oxide 0.8 part, in uniform red.
The raw material of third layer crystalline stone materials layer 3 includes the component of following weight part: silicon-dioxide 60 parts, 20 parts, calcium carbonate, 6 parts, calcium oxide, 4 parts, zinc oxide, barium carbonate 2 parts, boron oxide 3 parts, Manganse Dioxide 0.6 part, small Manganse Dioxide powdery particulate dispersion can be selected in the surface of this layer, form the loose point of the different pale pink of size.Every layer of crystalline stone materials layer can adopt variant material, more increases the vision effect of stacking.
Thickness A=0.9 millimeter of the first layer crystalline stone materials layer 1, A is greater than the thickness B of second layer crystalline stone materials layer 2, B=0.4 millimeter, the thickness C=1.2 millimeter of third layer crystalline stone materials layer 3. The crystalline stone materials layer stackup of different thickness, more can embody the visual experience of level.
Its working method comprises the following steps:
A, by the silicon-dioxide 60 parts of second layer crystalline stone materials layer, 20 parts, calcium carbonate, 6 parts, calcium oxide, 4 parts, zinc oxide, barium carbonate 2 parts, boron oxide 3 parts, sodium oxide 1 part, it is pulverized and mixed, prepares burden, melting 1.8 hours at the temperature of 1500 ° of C afterwards, sprinkle the manganese dioxide powder of 0.6 part in fused solution dignity after taking-up, then naturally cooling 8 hours, form crystal grain, being divided by crystal grain in the crystallization die needing part number, recrystallize, Tc is 1000 ° of C, crystallization time is 0.5 hour, forms the brilliant layer of the 2nd several layer;
B, by the starting silica 60 parts of the first layer and the crystalline stone materials layer of third layer, 20 parts, calcium carbonate, 6 parts, calcium oxide, 4 parts, zinc oxide, barium carbonate 2 parts, boron oxide 3 parts, ferric oxide 0.8 part, it is pulverized and mixed, batching, melting 2.6 hours at the temperature of 1550 ° of C afterwards, naturally cooling 10 hours again, form crystal grain, by crystal grain in crystallization die, the 2nd number layer crystal layer that inserting step A obtains again among described crystal grain again, carry out crystallization again, Tc is 1020 ° of C, crystallization time is 0.5 hour, first and second to add three brilliant layers of third layer right in a pair for shape,
C, again in 1020 ° of C crystallization times be 0.8 hour, formed microlite plate;
D, plate is used that plasma cutting machine is cut, the processing such as picture mosaic, form microlite ceramic board.
Embodiment two:
The working method of this multilayer color microlite ceramic tile, comprise crystallite slabstone body, crystallite slabstone body includes the crystalline stone materials layer that at least three layer stackup are arranged, here it is five layers, under upper, it be followed successively by the first layer crystalline stone materials layer, second layer crystalline stone materials layer, third layer crystalline stone materials layer, the 4th layer of crystalline stone materials layer, the 5th layer of crystalline stone materials layer.
The first layer crystalline stone materials layer raw material comprises the component of following weight part: silicon-dioxide 65 parts, 18 parts, calcium carbonate, 8 parts, calcium oxide, 3.5 parts, zinc oxide, barium carbonate 2.5 parts, boron oxide 2.5 parts, and aluminium sesquioxide 0.7 part, in uniform pale.
The raw material of second layer crystalline stone materials layer includes the component of following weight part: silicon-dioxide 70,16 parts, calcium carbonate, 10 parts, calcium oxide, 3 parts, zinc oxide, barium carbonate 1 part, boron oxide 2 parts, sodium oxide 1.2 parts, and Manganse Dioxide 0.6 part, in uniform pale pink.
The raw material of third layer crystalline stone materials layer includes the component of following weight part: silicon-dioxide 65 parts, 18 parts, calcium carbonate, 8 parts, calcium oxide, 3.5 parts, zinc oxide, barium carbonate 2.5 parts, boron oxide 2.5 parts, and aluminium sesquioxide 0.7 part, in uniform pale.
The raw material of the 4th layer of crystalline stone materials layer includes the component of following weight part: silicon-dioxide 65,16 parts, calcium carbonate, 8 parts, calcium oxide, 3 parts, zinc oxide, barium carbonate 1 part, boron oxide 2 parts, sodium oxide 1.5 parts, ferric oxide 0.7 part, the reddish-brown point of the particulate state uneven in size.
The raw material of the 5th layer of crystalline stone materials layer includes the component of following weight part: silicon-dioxide 60 parts, 16 parts, calcium carbonate, 8 parts, calcium oxide, 3 parts, zinc oxide, barium carbonate 2 parts, boron oxide 2.5 parts, cupric oxide 0.7 part, iron protoxide 0.6 part, cupric oxide and iron protoxide are uniform brownish black after mixing.
The thickness of the first to five layer of crystalline stone materials layer is followed successively by: 0.6 millimeter, 0.3 millimeter, 0.6 millimeter, 0.3 millimeter, 0.7 millimeter.
Its working method comprises the following steps:
A, starting silica 70 by the 4th layer of crystalline stone materials layer, 16 parts, calcium carbonate, 10 parts, calcium oxide, 3 parts, zinc oxide, barium carbonate 1 part, boron oxide 2 parts, sodium oxide 1.2 parts, it is pulverized and mixed, prepares burden, melting 2 hours at the temperature of 1550 ° of C afterwards, sprinkle the croci of 0.7 part in fused solution dignity after taking-up, then naturally cooling 10 hours, form crystal grain, being divided by crystal grain in the crystallization die needing part number, recrystallize, Tc is 1020 ° of C, crystallization time is 0.5 hour, forms the brilliant layer of even number layer;
B, by the starting silica 70 of the crystalline stone materials layer of the 5th layer, 16 parts, calcium carbonate, 10 parts, calcium oxide, 3 parts, zinc oxide, barium carbonate 1 part, boron oxide 2 parts, cupric oxide 0.7 part, iron protoxide 0.6 part, it is pulverized and mixed, batching, melting 2.6 hours at the temperature of 1500 ° of C afterwards, naturally cooling 9 hours again, form crystal grain, by crystal grain in crystallization die, the 4th layer crystal layer obtained into steps A is allowed again on described brilliant layer, carry out crystallization again, Tc is 1020 ° of C, crystallization time is 0.5 hour, shape in a pair the 4th and the five the twin crystal layer right,
C, successively repeating step A and B complete multiple brilliant layer to crystallization, by the silicon-dioxide 70 of second layer crystalline stone materials layer, 16 parts, calcium carbonate, 10 parts, calcium oxide, 3 parts, zinc oxide, barium carbonate 1 part, boron oxide 2 parts, sodium oxide 1.2 parts, Manganse Dioxide 0.6 part is pulverized and mixed, prepares burden, 8 hours, melting 1.8 hours at the temperature of 1500 ° of C, then naturally cooling afterwards, form crystal grain, being divided by crystal grain in the crystallization die needing part number, recrystallize, Tc is 1000 ° of C, crystallization time is 0.5 hour, forms the brilliant layer of the 2nd several layer, by the starting silica 65 parts of the first layer and the crystalline stone materials layer of third layer, 18 parts, calcium carbonate, 8 parts, calcium oxide, 3.5 parts, zinc oxide, barium carbonate 2.5 parts, boron oxide 2.5 parts, aluminium sesquioxide 0.7 part, it is pulverized and mixed, batching, melting 2.6 hours at the temperature of 1550 ° of C afterwards, naturally cooling 10 hours again, form crystal grain, by crystal grain in crystallization die, the 2nd number layer crystal layer that inserting step A obtains again among described crystal grain again, carry out crystallization again, Tc is 1020 ° of C, crystallization time is 0.5 hour, first and second to add three brilliant layers of third layer right in a pair for shape, putting into first more on request successively in crystallization die right to last layer crystal layer, again carry out crystallization, Tc is 1000 ° of C~1020 ° C, and crystallization time is 0.8 hour, forms microlite plate,
D, plate is used that plasma cutting machine is cut, the processing such as picture mosaic, form microlite ceramic board.