材料导报
材料導報
재료도보
MATERIALS REVIEW
2015年
16期
120-123,146
,共5页
杜永胜%张红霞%陈华%张雪峰%赵鸣%李保卫
杜永勝%張紅霞%陳華%張雪峰%趙鳴%李保衛
두영성%장홍하%진화%장설봉%조명%리보위
微晶玻璃%晶化温度%结晶相%辉石
微晶玻璃%晶化溫度%結晶相%輝石
미정파리%정화온도%결정상%휘석
glass-ceramics%crystallization temperature%crystalline phase%augite
利用白云鄂博东尾矿和粉煤灰为主要原料,添加少量石英砂、氧化钙等化学原料,制得了高性能的CaO-MgO-Al2 O3-SiO2(CMAS)系尾矿微晶玻璃,研究了微晶玻璃制备过程中的核化及晶化处理条件对其微观结构及性能的影响。首先通过 DTA、XRD、SEM 及 HRTEM 等测试手段对微晶玻璃的析晶过程进行了表征。结果表明,适当的核化处理温度可使微晶玻璃中产生磁铁矿晶核,这些晶核可作为异质表面促进主晶相辉石相的析出。性能测试结果表明微晶玻璃的密度、抗折强度及耐酸度与微晶玻璃晶化温度有关,晶化温度为850℃的微晶玻璃试样结晶程度最高、综合性能最优。更高的晶化温度导致微晶玻璃中空隙及缺陷的产生,反而降低了其物化特性。
利用白雲鄂博東尾礦和粉煤灰為主要原料,添加少量石英砂、氧化鈣等化學原料,製得瞭高性能的CaO-MgO-Al2 O3-SiO2(CMAS)繫尾礦微晶玻璃,研究瞭微晶玻璃製備過程中的覈化及晶化處理條件對其微觀結構及性能的影響。首先通過 DTA、XRD、SEM 及 HRTEM 等測試手段對微晶玻璃的析晶過程進行瞭錶徵。結果錶明,適噹的覈化處理溫度可使微晶玻璃中產生磁鐵礦晶覈,這些晶覈可作為異質錶麵促進主晶相輝石相的析齣。性能測試結果錶明微晶玻璃的密度、抗摺彊度及耐痠度與微晶玻璃晶化溫度有關,晶化溫度為850℃的微晶玻璃試樣結晶程度最高、綜閤性能最優。更高的晶化溫度導緻微晶玻璃中空隙及缺陷的產生,反而降低瞭其物化特性。
이용백운악박동미광화분매회위주요원료,첨가소량석영사、양화개등화학원료,제득료고성능적CaO-MgO-Al2 O3-SiO2(CMAS)계미광미정파리,연구료미정파리제비과정중적핵화급정화처리조건대기미관결구급성능적영향。수선통과 DTA、XRD、SEM 급 HRTEM 등측시수단대미정파리적석정과정진행료표정。결과표명,괄당적핵화처리온도가사미정파리중산생자철광정핵,저사정핵가작위이질표면촉진주정상휘석상적석출。성능측시결과표명미정파리적밀도、항절강도급내산도여미정파리정화온도유관,정화온도위850℃적미정파리시양결정정도최고、종합성능최우。경고적정화온도도치미정파리중공극급결함적산생,반이강저료기물화특성。
High quality glass-ceramics in the CaO-MgO-Al2 O3-SiO2 system were prepared from the Baiyunebo east mine tailing and fly ash as main raw material added a small amount of quartz sand,calcium oxide and other chemi-cal raw materials.The processing schedule for nucleation and crystallization on the microstructure and properties of the glass-ceramics were investigated.The crystallization behavior of these glass ceramics have been investigated by dif-ferential thermal analysis (DTA),X-ray diffraction (XRD),scanning electron microscope (SEM)and high resolution transmission electron microscopy (HRTEM).The results confirmed the magnetite can appear in the initial stages of nucleation at the appropriate nuclear temperature.These first nano-crystals of magnetite could then form heteroge-neous surfaces for subsequent crystallization of augite.Mechanical measurements showed that bending strengths,den-sity and chemical durability of glass-ceramics were related to the crystallization temperature.The glass-ceramic with crystallization temperature of 850 ℃ showed highest degree of crystallization,which can result in higher bending strengths and acid-resistance.Higher crystallization temperature can result in the appearance of voids and defects in glass-ceramics,which can decrease the physical and chemical properties of glass-ceramics.