Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Preparation method of micro-electrolysis magnesium-based ceramic material
The invention discloses a preparation method of a micro-electrolysis magnesium-based ceramic material, and relates to the field of application of a novel functional ceramic process in vacuum cups and drinking cups. The micro-electrolysis magnesium-based ceramic material comprises the following raw materials in parts by weight: 30-35 parts of polysiloxane, 6-10 parts of a flame retardant, 8-10 parts of potassium hexatitanate whiskers, 6-8 parts of nanoscale titanium dioxide powder, 20-25 parts of 800-mesh magnesium-based tourmaline powder, 3-5 parts of aluminum dihydrogen phosphate, 1-3 parts of a wetting dispersant, 1-3 parts of a thickening agent and 20-30 parts of deionized water. After the raw materials are dispersed and mixed evenly, the micro-electrolysis magnesium-based ceramic material is prepared through a hot pressing sintering process. The micro-electrolysis magnesium-based ceramic material is mild and practical in hydrogen production, has antibacterial, insulating, antistatic, hydrolysis-resistant, scale-resistant, high hardness and wear-resistant effects, and has an active interface effect.
本发明公开了一种微电解镁基陶瓷材料制备方法,涉及功能型陶瓷新工艺在保温杯壶及饮水杯具的应用领域。按照重量份数计,该微电解镁基陶瓷材料的组成原料具体包括以下组分:聚硅氧烷30~35份、阻燃剂6~10份、六钛酸钾晶须8~10份、纳米级二氧化钛粉末6~8份、800目镁基电气石粉20~25份、磷酸二氢铝3~5份、润湿分散剂1~3份、增稠剂1~3份、以及去离子水20~30份,将上述原料分散混合均匀后,采用热压烧结工艺进行制备,即得到微电解镁基陶瓷材料,该材料制氢温和实用,具有抗菌、绝缘、抗静电、耐水解、阻垢、高硬度、耐磨且有活性界面效果。
Preparation method of micro-electrolysis magnesium-based ceramic material
The invention discloses a preparation method of a micro-electrolysis magnesium-based ceramic material, and relates to the field of application of a novel functional ceramic process in vacuum cups and drinking cups. The micro-electrolysis magnesium-based ceramic material comprises the following raw materials in parts by weight: 30-35 parts of polysiloxane, 6-10 parts of a flame retardant, 8-10 parts of potassium hexatitanate whiskers, 6-8 parts of nanoscale titanium dioxide powder, 20-25 parts of 800-mesh magnesium-based tourmaline powder, 3-5 parts of aluminum dihydrogen phosphate, 1-3 parts of a wetting dispersant, 1-3 parts of a thickening agent and 20-30 parts of deionized water. After the raw materials are dispersed and mixed evenly, the micro-electrolysis magnesium-based ceramic material is prepared through a hot pressing sintering process. The micro-electrolysis magnesium-based ceramic material is mild and practical in hydrogen production, has antibacterial, insulating, antistatic, hydrolysis-resistant, scale-resistant, high hardness and wear-resistant effects, and has an active interface effect.
本发明公开了一种微电解镁基陶瓷材料制备方法,涉及功能型陶瓷新工艺在保温杯壶及饮水杯具的应用领域。按照重量份数计,该微电解镁基陶瓷材料的组成原料具体包括以下组分:聚硅氧烷30~35份、阻燃剂6~10份、六钛酸钾晶须8~10份、纳米级二氧化钛粉末6~8份、800目镁基电气石粉20~25份、磷酸二氢铝3~5份、润湿分散剂1~3份、增稠剂1~3份、以及去离子水20~30份,将上述原料分散混合均匀后,采用热压烧结工艺进行制备,即得到微电解镁基陶瓷材料,该材料制氢温和实用,具有抗菌、绝缘、抗静电、耐水解、阻垢、高硬度、耐磨且有活性界面效果。
Preparation method of micro-electrolysis magnesium-based ceramic material
一种微电解镁基陶瓷材料制备方法
QIU WENJIE (Autor:in)
04.06.2021
Patent
Elektronische Ressource
Chinesisch
Preparation method of non-sintered magnesium carbon micro-electrolysis filler
| Europäisches Patentamt | 2016
| Europäisches Patentamt | 2024
Preparation method and application of nickel slag-based micro-electrolysis filler material
| Europäisches Patentamt | 2023
Magnesium silicate ceramic material and preparation method thereof
| Europäisches Patentamt | 2021
Preparation method of hydrated magnesium silicate ceramic friction material
| Europäisches Patentamt | 2022