Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
High-thermal-shock-resistant ceramic and manufacturing method thereof
The invention discloses a high-thermal-shock-resistant ceramic and a manufacturing method thereof. The formula comprises a blank, a low temperature glaze and a high temperature glaze, wherein the blank comprises the following components by mass: 32-52 parts of cooked spodumene powder, 44-55 parts of high quality kaolin, and 1-10 parts of quartz, and the low-temperature glaze comprises the following components in parts by mass: 55-75 parts of burnt spodumene powder, 5-10 parts of low-temperature stone powder, 3-5 parts of cattle bone powder, 1-10 parts of burnt zinc oxide, 1-10 parts of quartz, 5-10 parts of burnt talcum powder, 5-12 parts of barium carbonate and 1-3 parts of zirconium silicate. According to the invention, the high-thermal-shock-resistant ceramic is formed by sintering the blank, the low-temperature glaze and the high-temperature glaze, is pure in glaze color and smooth in glaze surface, and does not fade; a triangular nail firing method is adopted, so that the finished product is a full-glaze product, that is, the whole product is covered by a glaze layer, and only three nail supporting parts loaded by glaze firing are unglazed, so that the product is more excellent in thermal shock resistance, resistant to abrasion, fine and smooth in glaze, smooth in glaze surface as jade, high in pressure resistance and favorable for users to use.
本发明公开了一种高抗热震陶瓷及其制造方法,配方包括:坯料、低温釉料和高温釉料,坯料各组分的质量百分含量分别是:32‑52份的熟锂辉石粉、44‑55份的优质高岭土、1‑10份的石英;低温釉料各组分的质量百分含量分别是:55‑75份的烧锂辉石粉、5‑10份的低温石粉、3‑5份的牛骨粉、1‑10份的烧氧化锌、1‑10份的石英、5‑10份的烧滑石粉、5‑12份的碳酸钡和1‑3份的硅酸锆;该发明,采用胚料、低温釉料与高温釉料烧结而成,釉色纯正,釉面光滑,无掉色,均采用三角钉装烧法,因此成品为满釉制品,即产品全身均为釉层覆盖,只有釉烧承装的三个支钉部位无釉,使产品抗热冲击性能更为优越,耐磨损,釉质细腻,釉面光滑如玉,抗压强,有利于用户使用。
High-thermal-shock-resistant ceramic and manufacturing method thereof
The invention discloses a high-thermal-shock-resistant ceramic and a manufacturing method thereof. The formula comprises a blank, a low temperature glaze and a high temperature glaze, wherein the blank comprises the following components by mass: 32-52 parts of cooked spodumene powder, 44-55 parts of high quality kaolin, and 1-10 parts of quartz, and the low-temperature glaze comprises the following components in parts by mass: 55-75 parts of burnt spodumene powder, 5-10 parts of low-temperature stone powder, 3-5 parts of cattle bone powder, 1-10 parts of burnt zinc oxide, 1-10 parts of quartz, 5-10 parts of burnt talcum powder, 5-12 parts of barium carbonate and 1-3 parts of zirconium silicate. According to the invention, the high-thermal-shock-resistant ceramic is formed by sintering the blank, the low-temperature glaze and the high-temperature glaze, is pure in glaze color and smooth in glaze surface, and does not fade; a triangular nail firing method is adopted, so that the finished product is a full-glaze product, that is, the whole product is covered by a glaze layer, and only three nail supporting parts loaded by glaze firing are unglazed, so that the product is more excellent in thermal shock resistance, resistant to abrasion, fine and smooth in glaze, smooth in glaze surface as jade, high in pressure resistance and favorable for users to use.
本发明公开了一种高抗热震陶瓷及其制造方法,配方包括:坯料、低温釉料和高温釉料,坯料各组分的质量百分含量分别是:32‑52份的熟锂辉石粉、44‑55份的优质高岭土、1‑10份的石英;低温釉料各组分的质量百分含量分别是:55‑75份的烧锂辉石粉、5‑10份的低温石粉、3‑5份的牛骨粉、1‑10份的烧氧化锌、1‑10份的石英、5‑10份的烧滑石粉、5‑12份的碳酸钡和1‑3份的硅酸锆;该发明,采用胚料、低温釉料与高温釉料烧结而成,釉色纯正,釉面光滑,无掉色,均采用三角钉装烧法,因此成品为满釉制品,即产品全身均为釉层覆盖,只有釉烧承装的三个支钉部位无釉,使产品抗热冲击性能更为优越,耐磨损,釉质细腻,釉面光滑如玉,抗压强,有利于用户使用。
High-thermal-shock-resistant ceramic and manufacturing method thereof
一种高抗热震陶瓷及其制造方法
YE XIANGYANG (Autor:in) / LI ZHIBIN (Autor:in) / WANG JIANXIANG (Autor:in)
28.05.2021
Patent
Elektronische Ressource
Chinesisch
| Europäisches Patentamt | 2024
| Europäisches Patentamt | 2015
High-temperature thermal shock resistant ceramic crucible and preparation method thereof
| Europäisches Patentamt | 2024
Thermal-shock-resistant ceramic brick and preparation method thereof
| Europäisches Patentamt | 2021
Thermal shock resistant ceramic material and preparation method thereof
| Europäisches Patentamt | 2021