煤炭技术
煤炭技術
매탄기술
COAL TECHNOLOGY
2013年
12期
183-184
,共2页
微晶玻璃%成分%煤炭废弃物%无机非金属材料
微晶玻璃%成分%煤炭廢棄物%無機非金屬材料
미정파리%성분%매탄폐기물%무궤비금속재료
glass ceramics%composition%coal waste%inorganic non-metallic materials
对微晶玻璃的成分进行了研究分析,并优化设计;通过差热分析研究了晶化温度、升温速率等热处理工艺参数的影响,通过扫描电镜和x射线衍射仪分析了其微观形貌和晶相;检测了其密度、抗折强度、显微硬度等性能。结果表明,所制备的40%SiO2-15%Al2O3-30%CaO微晶玻璃具有良好的力学性能,其主要晶相为黄长石,晶粒度约为4μm。
對微晶玻璃的成分進行瞭研究分析,併優化設計;通過差熱分析研究瞭晶化溫度、升溫速率等熱處理工藝參數的影響,通過掃描電鏡和x射線衍射儀分析瞭其微觀形貌和晶相;檢測瞭其密度、抗摺彊度、顯微硬度等性能。結果錶明,所製備的40%SiO2-15%Al2O3-30%CaO微晶玻璃具有良好的力學性能,其主要晶相為黃長石,晶粒度約為4μm。
대미정파리적성분진행료연구분석,병우화설계;통과차열분석연구료정화온도、승온속솔등열처리공예삼수적영향,통과소묘전경화x사선연사의분석료기미관형모화정상;검측료기밀도、항절강도、현미경도등성능。결과표명,소제비적40%SiO2-15%Al2O3-30%CaO미정파리구유량호적역학성능,기주요정상위황장석,정립도약위4μm。
The composition of the Glass Ceramics was investigated and optimized designed;followed crystallization temperature was investigated by DTA, the microscopic morphology and crystal phase were analyzed by SEM and x-ray diffraction (XRD); detection density, flexural strength, microhardness and other properties were measured. The results showed that the prepared 40% SiO2-15% Al2O3-30% CaO glass has good mechanical properties, had a main crystalline phase of gehlenite with grain size of 4μm.
