Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Glass powder, multilayer ceramic low-temperature co-fired inner electrode copper paste and preparation methods of glass powder and multilayer ceramic low-temperature co-fired inner electrode copper paste
The embodiment of the invention provides glass powder, multilayer ceramic low-temperature co-fired inner electrode copper paste and preparation methods of the glass powder and the multilayer ceramic low-temperature co-fired inner electrode copper paste. The glass powder and the multilayer ceramic low-temperature co-fired inner electrode copper paste are prepared from the following raw materials in parts by weight: 10-55 parts of silicon oxide, 5-20 parts of holmium oxide, 5-20 parts of lithium oxide and 10-40 parts of zinc oxide. The glass powder is prepared from the raw materials, and the inner electrode copper paste prepared from the glass powder has good co-firing matching performance with a multilayer ceramic substrate, and has the characteristics of long-time heat preservation performance at a relatively high temperature, good printing performance, excellent conductivity and the like.
本发明实施例提供了一种玻璃粉、多层陶瓷低温共烧的内电极铜浆及其两者的制备方法,包括以重量份计为单位的以下原料:10‑55重量份的硅氧化物,5‑20重量份的钬氧化物,5‑20重量份的锂氧化物,及10‑40重量份的锌氧化物。本发明通过该原料制得的玻璃粉,并通过该玻璃粉制得的内电极铜浆与多层陶瓷基板之间具有良好的共烧匹配性,具有在较高温度长时间保温的性能,印刷性能好、导电性能优良等特点。
Glass powder, multilayer ceramic low-temperature co-fired inner electrode copper paste and preparation methods of glass powder and multilayer ceramic low-temperature co-fired inner electrode copper paste
The embodiment of the invention provides glass powder, multilayer ceramic low-temperature co-fired inner electrode copper paste and preparation methods of the glass powder and the multilayer ceramic low-temperature co-fired inner electrode copper paste. The glass powder and the multilayer ceramic low-temperature co-fired inner electrode copper paste are prepared from the following raw materials in parts by weight: 10-55 parts of silicon oxide, 5-20 parts of holmium oxide, 5-20 parts of lithium oxide and 10-40 parts of zinc oxide. The glass powder is prepared from the raw materials, and the inner electrode copper paste prepared from the glass powder has good co-firing matching performance with a multilayer ceramic substrate, and has the characteristics of long-time heat preservation performance at a relatively high temperature, good printing performance, excellent conductivity and the like.
本发明实施例提供了一种玻璃粉、多层陶瓷低温共烧的内电极铜浆及其两者的制备方法,包括以重量份计为单位的以下原料:10‑55重量份的硅氧化物,5‑20重量份的钬氧化物,5‑20重量份的锂氧化物,及10‑40重量份的锌氧化物。本发明通过该原料制得的玻璃粉,并通过该玻璃粉制得的内电极铜浆与多层陶瓷基板之间具有良好的共烧匹配性,具有在较高温度长时间保温的性能,印刷性能好、导电性能优良等特点。
Glass powder, multilayer ceramic low-temperature co-fired inner electrode copper paste and preparation methods of glass powder and multilayer ceramic low-temperature co-fired inner electrode copper paste
一种玻璃粉、多层陶瓷低温共烧的内电极铜浆及其两者的制备方法
LU SHENGGUO (Autor:in) / XU CHANGSHENG (Autor:in) / NIU XIANG (Autor:in) / ZHOU LEI (Autor:in) / LIAO FUYANG (Autor:in) / ZHAO XIAOBO (Autor:in) / YAO YINGBANG (Autor:in) / TAO TAO (Autor:in) / LIANG BO (Autor:in)
25.03.2022
Patent
Elektronische Ressource
Chinesisch
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