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Nano functional ceramic material and preparation method thereof
The invention provides a nano functional ceramic material and a preparation method thereof, and belongs to the field of ceramic materials. The ceramic tile is prepared from the following raw materials in parts by mass: 20-50 parts of cerium-containing iron ore tailings, 4-6 parts of nano-zinc oxide, 4-7 parts of tourmaline, 0.4-1 part of silicate mineral with a cyclic structure, 1-3 parts of pyroxene, 3-6 parts of magnetite and 5-15 parts of kaolin. According to the ceramic glaze disclosed by the invention, the cerium-containing iron ore tailings contain rare earth element cerium, so that the far infrared characteristic of the ceramic glaze is improved, and cerium oxide, nano-zinc oxide and tourmaline in the cerium-containing iron ore tailings can play a more excellent antibacterial role and a far infrared emission function in a skeleton structure formed by the tourmaline, kaolin and pyroxene; the far infrared characteristic is further improved; the silicate mineral with the annular structure can release far infrared radiation energy; when the pyroxene is calcined, pyroxene crystals are easily formed with other ceramic raw materials and have an infrared radiation function.
本发明提供了一种纳米功能陶瓷材料及其制备方法,属于陶瓷材料领域。由包括以下质量份数的原料制得:含铈铁矿石尾矿20~50份、纳米氧化锌4~6份、电气石4~7份、环状结构硅酸盐矿物0.4~1份、辉石1~3份、磁铁矿3~6份和高岭土5~15份。本发明中,含铈铁矿石尾矿中含有稀土元素铈,有利于提高陶瓷釉料的远红外特性,含铈铁矿石尾矿中的氧化铈、纳米氧化锌以及电气石,能在在电气石、高岭土、辉石形成的骨架结构内发挥更优异的抗菌作用以及远红外线发射功能,进一步提高远红外特性;环状结构硅酸盐矿物可释放出远红外辐射能量;辉石在煅烧时,易与其他陶瓷原料形成辉石晶体,具有红外辐射功能。
Nano functional ceramic material and preparation method thereof
The invention provides a nano functional ceramic material and a preparation method thereof, and belongs to the field of ceramic materials. The ceramic tile is prepared from the following raw materials in parts by mass: 20-50 parts of cerium-containing iron ore tailings, 4-6 parts of nano-zinc oxide, 4-7 parts of tourmaline, 0.4-1 part of silicate mineral with a cyclic structure, 1-3 parts of pyroxene, 3-6 parts of magnetite and 5-15 parts of kaolin. According to the ceramic glaze disclosed by the invention, the cerium-containing iron ore tailings contain rare earth element cerium, so that the far infrared characteristic of the ceramic glaze is improved, and cerium oxide, nano-zinc oxide and tourmaline in the cerium-containing iron ore tailings can play a more excellent antibacterial role and a far infrared emission function in a skeleton structure formed by the tourmaline, kaolin and pyroxene; the far infrared characteristic is further improved; the silicate mineral with the annular structure can release far infrared radiation energy; when the pyroxene is calcined, pyroxene crystals are easily formed with other ceramic raw materials and have an infrared radiation function.
本发明提供了一种纳米功能陶瓷材料及其制备方法,属于陶瓷材料领域。由包括以下质量份数的原料制得:含铈铁矿石尾矿20~50份、纳米氧化锌4~6份、电气石4~7份、环状结构硅酸盐矿物0.4~1份、辉石1~3份、磁铁矿3~6份和高岭土5~15份。本发明中,含铈铁矿石尾矿中含有稀土元素铈,有利于提高陶瓷釉料的远红外特性,含铈铁矿石尾矿中的氧化铈、纳米氧化锌以及电气石,能在在电气石、高岭土、辉石形成的骨架结构内发挥更优异的抗菌作用以及远红外线发射功能,进一步提高远红外特性;环状结构硅酸盐矿物可释放出远红外辐射能量;辉石在煅烧时,易与其他陶瓷原料形成辉石晶体,具有红外辐射功能。
Nano functional ceramic material and preparation method thereof
一种纳米功能陶瓷材料及其制备方法
XIAO LIANG (author) / ZHU FULIN (author) / TAN HAOWEN (author) / LI NENG (author) / LIU MING (author)
2023-08-25
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
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