Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
High-hardness long-afterglow luminescent coating for enamel ceramic product and preparation method of high-hardness long-afterglow luminescent coating
The invention discloses a high-hardness long-afterglow luminescent coating for an enamel ceramic product and a preparation method of the high-hardness long-afterglow luminescent coating, which belongto the field of non-metal coating treatment. The coating comprises organic silicon modified resin, silicon dioxide and light-emitting powder. The preparation method comprises the steps of component mixing, smearing and temperature programming. Compared with traditional high-temperature glaze firing, the baking temperature of the luminescent coating is as low as 150-180 DEG C, luminescent powder isbasically free of thermal decomposition, and meanwhile, the production energy consumption is remarkably reduced; the physical and chemical properties of the luminescent coating are basically not changed after low-temperature baking, so that the hue and brightness of the luminescent coating are convenient to regulate and control; the binding force of the luminous coating and the enamel ceramic product is excellent, the surface hardness is high, and the afterglow time is long.
本发明公开了一种釉质陶瓷制品高硬度长余辉发光涂层及其制备方法,属于非金属涂层处理领域。其成分包括有机硅改性树脂、二氧化硅和发光粉。其制备方法包括成分混合,涂抹和程序升温。与传统的高温烧釉相比,本发明的发光涂层的烘烤温度低至150‑180℃,发光粉基本无热分解,同时生产能耗显著降低;发光涂层的物理化学性质在低温烘烤后基本无变化,便于发光涂层色相与亮度的调控;发光涂层与釉质陶瓷制品的结合力优良,表面硬度高,且余晖时间长。
High-hardness long-afterglow luminescent coating for enamel ceramic product and preparation method of high-hardness long-afterglow luminescent coating
The invention discloses a high-hardness long-afterglow luminescent coating for an enamel ceramic product and a preparation method of the high-hardness long-afterglow luminescent coating, which belongto the field of non-metal coating treatment. The coating comprises organic silicon modified resin, silicon dioxide and light-emitting powder. The preparation method comprises the steps of component mixing, smearing and temperature programming. Compared with traditional high-temperature glaze firing, the baking temperature of the luminescent coating is as low as 150-180 DEG C, luminescent powder isbasically free of thermal decomposition, and meanwhile, the production energy consumption is remarkably reduced; the physical and chemical properties of the luminescent coating are basically not changed after low-temperature baking, so that the hue and brightness of the luminescent coating are convenient to regulate and control; the binding force of the luminous coating and the enamel ceramic product is excellent, the surface hardness is high, and the afterglow time is long.
本发明公开了一种釉质陶瓷制品高硬度长余辉发光涂层及其制备方法,属于非金属涂层处理领域。其成分包括有机硅改性树脂、二氧化硅和发光粉。其制备方法包括成分混合,涂抹和程序升温。与传统的高温烧釉相比,本发明的发光涂层的烘烤温度低至150‑180℃,发光粉基本无热分解,同时生产能耗显著降低;发光涂层的物理化学性质在低温烘烤后基本无变化,便于发光涂层色相与亮度的调控;发光涂层与釉质陶瓷制品的结合力优良,表面硬度高,且余晖时间长。
High-hardness long-afterglow luminescent coating for enamel ceramic product and preparation method of high-hardness long-afterglow luminescent coating
一种釉质陶瓷制品高硬度长余辉发光涂层及其制备方法
LI LAN (Autor:in) / CHEN ZHENXING (Autor:in) / LIU RU (Autor:in) / YAO WANQING (Autor:in) / LI WENCHAO (Autor:in) / ZHANG FENGRU (Autor:in) / HUANG ZHICHAO (Autor:in)
04.08.2020
Patent
Elektronische Ressource
Chinesisch
IPC:
C04B
Kalk
,
LIME
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