功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
21期
2985-2988
,共4页
高硼硅玻璃%组成%粘度%膨胀系数%封接
高硼硅玻璃%組成%粘度%膨脹繫數%封接
고붕규파리%조성%점도%팽창계수%봉접
borosilicate glass%component%viscosity%coefficient of thermal expansion%sealing
研究了组成调整对高硼硅玻璃粘度和膨胀系数的影响。结果表明,随着竹(B2O3)/n(SiO2)比增大,玻璃粘度减小,而膨胀系数增大。增加Al2O3含量,玻璃粘度增大,但膨胀系数基本没有变化。Li2O具有助熔作用,可显著降低玻璃粘度,而增大膨胀系数。ZnO也表现出助熔效果,但比Li2O作用弱。CaO取代Na2O时,玻璃高温粘度变化较小,而低温粘度明显增大。加入ZnO和CaO,玻璃膨胀系数降低。外加少量的TiO2、ZrO2和La2O3可降低玻璃粘度,膨胀系数稍有增大。E玻璃与Kovar合金的膨胀系数具有优异匹配性,可满足Kovar合金封装要求,表现出良好的应用前景。
研究瞭組成調整對高硼硅玻璃粘度和膨脹繫數的影響。結果錶明,隨著竹(B2O3)/n(SiO2)比增大,玻璃粘度減小,而膨脹繫數增大。增加Al2O3含量,玻璃粘度增大,但膨脹繫數基本沒有變化。Li2O具有助鎔作用,可顯著降低玻璃粘度,而增大膨脹繫數。ZnO也錶現齣助鎔效果,但比Li2O作用弱。CaO取代Na2O時,玻璃高溫粘度變化較小,而低溫粘度明顯增大。加入ZnO和CaO,玻璃膨脹繫數降低。外加少量的TiO2、ZrO2和La2O3可降低玻璃粘度,膨脹繫數稍有增大。E玻璃與Kovar閤金的膨脹繫數具有優異匹配性,可滿足Kovar閤金封裝要求,錶現齣良好的應用前景。
연구료조성조정대고붕규파리점도화팽창계수적영향。결과표명,수착죽(B2O3)/n(SiO2)비증대,파리점도감소,이팽창계수증대。증가Al2O3함량,파리점도증대,단팽창계수기본몰유변화。Li2O구유조용작용,가현저강저파리점도,이증대팽창계수。ZnO야표현출조용효과,단비Li2O작용약。CaO취대Na2O시,파리고온점도변화교소,이저온점도명현증대。가입ZnO화CaO,파리팽창계수강저。외가소량적TiO2、ZrO2화La2O3가강저파리점도,팽창계수초유증대。E파리여Kovar합금적팽창계수구유우이필배성,가만족Kovar합금봉장요구,표현출량호적응용전경。
The effect of components on viscosities and coefficients of thermal expansion of borosilicate glasses were studied. With the increasing of n(B2O3)/n (SiO2) ratio, the viscosities of borosilicate glasses decrease, and their coefficients of thermal expansion increase. When Ale O3 replaces SiO2, the viscosities of borosilicate glasses enhance, but their coefficients of thermal expansion have little change. The viscosities rapidly decrease and coefficients of thermal expansion increase if Li2 O was adopted. ZnO carl also improve the melting of borosil- ieate glasses, hut its influence is less than Li2O's. When CaO replaces Na2O, the viscosity change of high ten〉 perature is little, but that of low temperature is much. The coefficients of thermal expansion decrease when ZnO and CaO were adopted. If a few TiO2, ZrO2 and La2O3 were introduced, the viscosities of borosilicate glasses decrease and their coefficients of thermal expansion have little increase. The coefficient of thermal expansion of E glass was matched excellently with that of Kovar alloy, indicating that E glass has a great potential application.