One-time sintering glass-ceramic composite board and preparation method thereof
A technology for glass-ceramics and composite panels, applied in the field of architectural ceramics production, can solve the problems of frequent adjustment of the process of one-time fired glass-ceramic composite panels, strict requirements for raw material stability, and narrow range of formulations, reducing the frequency of debugging and The effect of shortening the debugging cycle, the firing cycle, and increasing the matching degree
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Embodiment 1
[0033] Refer to attached figure 2 The cross-sectional schematic diagram of the final product is selected from the invention patent No. 201110219027.6, which is disclosed in Example 1. The base blank formula and the frit formula are prepared and implemented 1. It should be noted here that the above is only an exemplary description, and other bottom blank formulations and frit formulations in the prior art can also realize the present invention.
[0034] Feldspar, clay, kaolin and other raw ores are used for batching in proportion. After ball milling, iron removal, and spray granulation, the weight percentage of each chemical component is: SiO 2 70%~73%, Al 2 o 3 20%~22%, CaO0.8%~1%, MgO2%~3%, K 2 O2.5%~3.0% and Na 2 O1% to 2% ceramic brick powder is used as the raw material for the green body layer. Among them, the feldspar is produced in the Gao'an area of Jiangxi, and the clay is produced in Zengcheng, Guangdong.
[0035] The percentage of selected chemical component...
Embodiment 2
[0046] Select and implement 1, comparative example 1 different batches of bottom blank raw materials, wherein feldspar is produced in Qingyuan, Guangdong, and clay is produced in Dongguan, Guangdong, and the ingredients are carried out according to the original proportion, but the iron in ball milling and spray granulation are obtained in Example 1. The chemical composition is slightly different, where SiO 2 67%~68%, Al 2 o 3 21%~23%, CaO0.8%~1.0%, MgO2.0%~3%, K 2 O3.5%~5.0% and Na 2 O2% ~ 3%.
[0047] The rest of the process is the same as in Implementation 1.
[0048] The rate of excellent products is 88%. Among the remaining 12% of products, 7% of the surface flatness is not up to standard, and 5% of other defects.
Embodiment 3
[0058] Refer to attached image 3 . In this embodiment, we press and form the green body through a mold with concave-convex patterns, so that the surface of the micropowder layer has concave-convex patterns, and the printing layer undulates with the concave-convex patterns of the micropowder layer. In addition, the chemical composition of the bottom base layer powder is SiO 2 68~73%, Al 2 o 3 17~23%, Fe 2 o 3 0.5~1%, TiO≤0.5, CaO0.8~1.2%, MgO≤2.5%, K 2 O≤2.5% and Na 2 O1% ~ 3%, and the loss on ignition of green body powder ≤ 5%.
[0059] The thickness of the micropowder layer is 1 / 3 of the thickness of the bottom base layer, and the raw materials are proportioned according to the volume expansion coefficient at 700°C of 1.02 to 1.04 times that of the bottom base layer.
[0060] In the present embodiment, the chemical composition of the micropowder layer powder is SiO 2 62~67%, Al 2 o 3 18~22%, Fe 2 o 3 0.1~0.5%, TiO≤0.5, CaO1.5~3%, MgO≤2.5%, K 2 O and Na 2 O5% ~...
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