硅酸盐学报
硅痠鹽學報
규산염학보
JOURNAL OF THE CHINESE CERAMIC SOCIETY
2008年
4期
535-538,543
,共5页
张兵%陈奇%王德强%陆剑英
張兵%陳奇%王德彊%陸劍英
장병%진기%왕덕강%륙검영
磷酸盐低熔玻璃%耐水性%玻璃转变温度%二氧化锰
燐痠鹽低鎔玻璃%耐水性%玻璃轉變溫度%二氧化錳
린산염저용파리%내수성%파리전변온도%이양화맹
low-melting phosphate glasses%water durability%glass transition temperature%manganese dioxide
;制备了含锰ZnO-Sb2O3-P2O5系统无铅低熔玻璃,其组成的配比(摩尔分数)为40.7%P2O5·36%ZNO-10%Sb2O3·2%Li2O·4%Na2O·3.3%CaO·4%BaO.借助红外光谱及差热分析考察了0~8%(摩尔分数)MaO及MaO2替代ZnO后对玻璃耐水性和低熔性的影响,借助紫外-可见光谱分析了锰离子在玻璃中的价态.结果表明:MaO/MnO2的引入改善了玻璃的耐水性,且以MaO2的作用更为显著;此外,锰的引入未明显提高玻璃的转变温度和软化温度,对密度及膨胀系数的影响也很小.玻璃中锰离子的价态主要与其在原料中的价态一致,同时存在有少量的Mn3+.在制备磷酸盐低熔玻璃时,MnO2是非常具有实用价值的一种组分.
;製備瞭含錳ZnO-Sb2O3-P2O5繫統無鉛低鎔玻璃,其組成的配比(摩爾分數)為40.7%P2O5·36%ZNO-10%Sb2O3·2%Li2O·4%Na2O·3.3%CaO·4%BaO.藉助紅外光譜及差熱分析攷察瞭0~8%(摩爾分數)MaO及MaO2替代ZnO後對玻璃耐水性和低鎔性的影響,藉助紫外-可見光譜分析瞭錳離子在玻璃中的價態.結果錶明:MaO/MnO2的引入改善瞭玻璃的耐水性,且以MaO2的作用更為顯著;此外,錳的引入未明顯提高玻璃的轉變溫度和軟化溫度,對密度及膨脹繫數的影響也很小.玻璃中錳離子的價態主要與其在原料中的價態一緻,同時存在有少量的Mn3+.在製備燐痠鹽低鎔玻璃時,MnO2是非常具有實用價值的一種組分.
;제비료함맹ZnO-Sb2O3-P2O5계통무연저용파리,기조성적배비(마이분수)위40.7%P2O5·36%ZNO-10%Sb2O3·2%Li2O·4%Na2O·3.3%CaO·4%BaO.차조홍외광보급차열분석고찰료0~8%(마이분수)MaO급MaO2체대ZnO후대파리내수성화저용성적영향,차조자외-가견광보분석료맹리자재파리중적개태.결과표명:MaO/MnO2적인입개선료파리적내수성,차이MaO2적작용경위현저;차외,맹적인입미명현제고파리적전변온도화연화온도,대밀도급팽창계수적영향야흔소.파리중맹리자적개태주요여기재원료중적개태일치,동시존재유소량적Mn3+.재제비린산염저용파리시,MnO2시비상구유실용개치적일충조분.
Low-melting ZnO-Sb2O3-P2O5 glasses (40.7%P2O5·36%ZnO·10%Sb2O32%Li2O.4%Na2O.3.3%CaO.4%BaO in molefraction) with the substitution of 0-8% (in mole) MnO and/or MnO2 for ZnO were synthesized. The water durability and thermalproperties of the glasses were investigated using infrared spectra and differential thermal analysis, and the valence state of Mn wasinvestigated using ultraviolet-visible spectra. The results indicate that the substitution of MnO can improve glass durability, and thesubstitution of MnO2 is much more effective while only marginally impairing the low transition temperature and softening tempera-ture of the base glass. The glass density and coefficient of thermal expansion vary slightly with increasing MnO or MnO2 content. Thevalence states of Mn in the glasses are consistent with those in the precursors used, with a small portion of Mn3+. The addition ofMnO2 is of considerable benefit for the preparation of durable, low-melting phosphate glasses.