A kind of high-strength wear-resistant glaze and ceramic products with high-strength wear-resistant glaze and preparation method
A wear-resistant ceramic and high-strength technology, applied in the field of ceramic manufacturing, can solve the problems of poor wear resistance and low strength, and achieve the effect of improving brightness, strength and wear resistance, and moist texture
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Embodiment 1
[0024] This embodiment provides a high-strength wear-resistant glaze, including the following components in parts by weight: 40 parts of waste ceramics, 20 parts of silicon oxide, 15 parts of kaolin, 15 parts of allophane, and 5 parts of sepiolite , 15 parts of alumina, 10 parts of sodium silicate, 10 parts of aluminum silicate, 3 parts of diamond powder, 3 parts of actinolite, 1 part of talc, 1 part of sodium nitrate, 1 part of glass powder, 1 part of boric acid, vanadium for glaze 10 parts of zircon yellow pigment.
[0025] This embodiment also provides a process for preparing high-strength wear-resistant ceramic products with high-strength wear-resistant glaze, including the following steps:
[0026] Step 1, taking each raw material in turn according to the weight part, for subsequent use;
[0027] Step 2. Mix the raw materials of the high-strength wear-resistant glaze and add water that accounts for 2 times its total weight, then perform ball milling at a speed of 180r / mi...
Embodiment 2
[0030] This embodiment provides a high-strength wear-resistant glaze, including the following components in parts by weight: 43 parts of waste ceramics, 22 parts of silicon oxide, 17 parts of kaolin, 17 parts of allophane, and 6 parts of sepiolite , 16 parts of alumina, 12 parts of sodium silicate, 10 parts of aluminum silicate, 4 parts of diamond powder, 3 parts of actinolite, 2 parts of talc, 1.3 parts of sodium nitrate, 1.2 parts of glass powder, 1.2 parts of boric acid, 10 parts of volcanic stone 13 parts, cobalt green pigment.
[0031] This embodiment also provides a process for preparing high-strength wear-resistant ceramic products with high-strength wear-resistant glaze, including the following steps:
[0032] Step 1, taking each raw material in turn according to the weight part, for subsequent use;
[0033] Step 2. Mix the raw materials of the high-strength wear-resistant glaze and add water accounting for 2 times its total weight, and then perform ball milling at a ...
Embodiment 3
[0036] This embodiment provides a high-strength wear-resistant glaze, including the following components in parts by weight: 45 parts of waste ceramics, 23 parts of silicon oxide, 20 parts of kaolin, 17 parts of allophane, and 8 parts of sepiolite , 17 parts of alumina, 11 parts of sodium silicate, 11 parts of aluminum silicate, 4 parts of diamond powder, 4 parts of actinolite, 2 parts of talc, 1.5 parts of sodium nitrate, 1.5 parts of glass powder, 1.5 parts of boric acid, 12 parts of volcanic stone 13 parts, 13 parts of wrapped red pigment for glaze.
[0037] This embodiment also provides a process for preparing high-strength wear-resistant ceramic products with high-strength wear-resistant glaze, including the following steps:
[0038] Step 1, taking each raw material in turn according to the weight part, for subsequent use;
[0039] Step 2. Mix the raw materials of the high-strength wear-resistant glaze, add water accounting for 3 times its total weight, and then perform ...
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