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Anti-slip super-wear-resistant ceramic tile and production process thereof
The invention relates to the technical field of ceramic tiles, and particularly discloses an anti-skid and super-wear-resistant ceramic tile and a production process thereof.The anti-skid and super-wear-resistant ceramic tile comprises a green body, glaze and anti-skid and wear-resistant glaze; the anti-slip wear-resistant glaze is prepared from the following raw materials: modified talcum powder, potassium feldspar, boric oxide, aluminum oxide, wollastonite, quartz powder, polyisobutylene polysuccinimide, sodium carboxymethyl cellulose and sodium tripolyphosphate; the viscosity of the sodium carboxymethyl cellulose is 800 to 2500 mPa.s; the modified talcum powder is prepared by modifying zirconium oxide. The highest breaking strength of the ceramic tile can reach 66.5 MPa, the lowest water absorption rate of the ceramic tile is 0.10%, the ceramic tile has low water absorption rate and strength, the highest antiskid coefficient of the ceramic tile is 0.82, the highest wear-resistant grade of the ceramic tile can reach level 5, and the antiskid and wear-resistant performance of the ceramic tile is improved.
本申请涉及瓷砖技术领域,具体公开了一种防滑超耐磨瓷砖及其生产工艺,一种防滑超耐磨瓷砖,包括坯体、釉料和防滑耐磨釉料;所述防滑耐磨釉料包括如下原料:改性滑石粉、钾长石、氧化硼、氧化铝、硅灰石、石英粉、聚异丁烯多丁二酰亚胺、羧甲基纤维素钠和三聚磷酸钠;所述羧甲基纤维素钠的粘度为800‑2500mPa·s;所述改性滑石粉通过氧化锆改性制得。本申请得到的瓷砖抗折强度最高可达66.5 MPa,吸水率最低为0.10%,具有较低的吸水率和强度,且本申请防滑系数最高为0.82,耐磨等级最高可达5级,提高了瓷砖的防滑耐磨性。
Anti-slip super-wear-resistant ceramic tile and production process thereof
The invention relates to the technical field of ceramic tiles, and particularly discloses an anti-skid and super-wear-resistant ceramic tile and a production process thereof.The anti-skid and super-wear-resistant ceramic tile comprises a green body, glaze and anti-skid and wear-resistant glaze; the anti-slip wear-resistant glaze is prepared from the following raw materials: modified talcum powder, potassium feldspar, boric oxide, aluminum oxide, wollastonite, quartz powder, polyisobutylene polysuccinimide, sodium carboxymethyl cellulose and sodium tripolyphosphate; the viscosity of the sodium carboxymethyl cellulose is 800 to 2500 mPa.s; the modified talcum powder is prepared by modifying zirconium oxide. The highest breaking strength of the ceramic tile can reach 66.5 MPa, the lowest water absorption rate of the ceramic tile is 0.10%, the ceramic tile has low water absorption rate and strength, the highest antiskid coefficient of the ceramic tile is 0.82, the highest wear-resistant grade of the ceramic tile can reach level 5, and the antiskid and wear-resistant performance of the ceramic tile is improved.
本申请涉及瓷砖技术领域,具体公开了一种防滑超耐磨瓷砖及其生产工艺,一种防滑超耐磨瓷砖,包括坯体、釉料和防滑耐磨釉料;所述防滑耐磨釉料包括如下原料:改性滑石粉、钾长石、氧化硼、氧化铝、硅灰石、石英粉、聚异丁烯多丁二酰亚胺、羧甲基纤维素钠和三聚磷酸钠;所述羧甲基纤维素钠的粘度为800‑2500mPa·s;所述改性滑石粉通过氧化锆改性制得。本申请得到的瓷砖抗折强度最高可达66.5 MPa,吸水率最低为0.10%,具有较低的吸水率和强度,且本申请防滑系数最高为0.82,耐磨等级最高可达5级,提高了瓷砖的防滑耐磨性。
Anti-slip super-wear-resistant ceramic tile and production process thereof
一种防滑超耐磨瓷砖及其生产工艺
LIU GAOHUI (author)
2024-01-16
Patent
Electronic Resource
Chinese
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