中国陶瓷工业
中國陶瓷工業
중국도자공업
CHINA CERAMIC INDUSTRY
2014年
3期
9-13
,共5页
熊里%顾幸勇%董伟霞%罗婷
熊裏%顧倖勇%董偉霞%囉婷
웅리%고행용%동위하%라정
铝钒土%堇青石%瓷质卫生陶瓷%低膨胀系数
鋁釩土%堇青石%瓷質衛生陶瓷%低膨脹繫數
려범토%근청석%자질위생도자%저팽창계수
bauxite%cordierite%vitriifed sanitary ceramics%low thermal expansion
采用煤矸石废料、劣质原料黑滑石和铝钒土为主要原料,通过原位生长法制备了堇青石质低膨胀高远红外瓷质卫生陶瓷。利用XRD、SEM和性能测试研究铝钒土含量对堇青石卫生陶瓷性能的影响。实验结果表明:铝钒土含量对吸水率、抗折强度和膨胀系数具有较明显的影响,而对远红外辐射率并未带来不利的影响,所有样品的远红外率均保持在0.93以上。当铝钒土含量为27%,煤矸石33wt.%,黑滑石37%时,陶瓷性能达到最优:吸水率为0.04%,热膨胀系数为2.74×10-6/℃,抗折强度为87.4 MPa。这主要是由于样品的主晶相堇青石含量最高,并且烧结致密化程度高,其中气孔分布更加均匀所致。相关研究结果对环境保护和工业废物的资源化利用有着积极意义。
採用煤矸石廢料、劣質原料黑滑石和鋁釩土為主要原料,通過原位生長法製備瞭堇青石質低膨脹高遠紅外瓷質衛生陶瓷。利用XRD、SEM和性能測試研究鋁釩土含量對堇青石衛生陶瓷性能的影響。實驗結果錶明:鋁釩土含量對吸水率、抗摺彊度和膨脹繫數具有較明顯的影響,而對遠紅外輻射率併未帶來不利的影響,所有樣品的遠紅外率均保持在0.93以上。噹鋁釩土含量為27%,煤矸石33wt.%,黑滑石37%時,陶瓷性能達到最優:吸水率為0.04%,熱膨脹繫數為2.74×10-6/℃,抗摺彊度為87.4 MPa。這主要是由于樣品的主晶相堇青石含量最高,併且燒結緻密化程度高,其中氣孔分佈更加均勻所緻。相關研究結果對環境保護和工業廢物的資源化利用有著積極意義。
채용매안석폐료、렬질원료흑활석화려범토위주요원료,통과원위생장법제비료근청석질저팽창고원홍외자질위생도자。이용XRD、SEM화성능측시연구려범토함량대근청석위생도자성능적영향。실험결과표명:려범토함량대흡수솔、항절강도화팽창계수구유교명현적영향,이대원홍외복사솔병미대래불리적영향,소유양품적원홍외솔균보지재0.93이상。당려범토함량위27%,매안석33wt.%,흑활석37%시,도자성능체도최우:흡수솔위0.04%,열팽창계수위2.74×10-6/℃,항절강도위87.4 MPa。저주요시유우양품적주정상근청석함량최고,병차소결치밀화정도고,기중기공분포경가균균소치。상관연구결과대배경보호화공업폐물적자원화이용유착적겁의의。
In this paper, cordierite sanitary ceramics with low thermal expansion and high far- infrared properties were successfully prepared by in situ synthesis, using low-cost coal gangue, black talc and bauxite as raw material. The effects of bauxite addition on their properties were studied by XRD, SEM analysis and performance tests. The results showed that bauxite content had beneifcial effects on their thermal expansion coefficient and bending strength, and no negative influence on their high far-infrared radiation, which was kept above 0.93. The optimum water absorption of 0.04% , expansion cofifcient of 2.74×10-6/℃ and bending strength of 87.4 MPa could be achieved in the presence of 27 wt.% bauxite, 33 wt.% coal gangue and 37 wt.% black talc. The properties improvement was mainly due to the presence of more cordierite phases and higher sintering densiifcation, and better pore distribution compared to other samples. The study has a positive application for environmental protection and reutilization of industrial wastes as resources.
