硅酸盐学报
硅痠鹽學報
규산염학보
JOURNAL OF THE CHINESE CERAMIC SOCIETY
2008年
10期
1356-1361
,共6页
彭家惠%张建新%瞿金东%白冷%万体智
彭傢惠%張建新%瞿金東%白冷%萬體智
팽가혜%장건신%구금동%백랭%만체지
硬石膏%硫酸钠%水化进程%晶体形貌
硬石膏%硫痠鈉%水化進程%晶體形貌
경석고%류산납%수화진정%정체형모
anhydrite%sodium sulfate%hydration process%crystal morphology
通过硬石膏水化率、水化温度、液相离子浓度测定和硬化体显微结构分析,研究了Na2SO4对硬石膏水化进程和二水石膏晶体形貌的影响,从二水石膏晶体生长角度探讨了Na2SO4的作用机理.结果表明:Na2SO4可促进硬石膏溶解,使硬石膏水化率提高,水化热集中,水化潜伏期缩短,水化进程加快;Na2SO4还可提高二水石膏的析晶过饱和度,使二水石膏临界晶核半径减少,晶体成核与生长速率加快,晶体尺寸减小:Na2SO4形成富SO2-4液相,有利于二水石膏晶体结构基元形成,高SO2-4浓度改变了晶面在不同轴向生长的相对速率,使c轴方向的生长具有优势,从而改变了二水石膏晶体生长习性,使二水石膏晶体由板状变为针柱状.
通過硬石膏水化率、水化溫度、液相離子濃度測定和硬化體顯微結構分析,研究瞭Na2SO4對硬石膏水化進程和二水石膏晶體形貌的影響,從二水石膏晶體生長角度探討瞭Na2SO4的作用機理.結果錶明:Na2SO4可促進硬石膏溶解,使硬石膏水化率提高,水化熱集中,水化潛伏期縮短,水化進程加快;Na2SO4還可提高二水石膏的析晶過飽和度,使二水石膏臨界晶覈半徑減少,晶體成覈與生長速率加快,晶體呎吋減小:Na2SO4形成富SO2-4液相,有利于二水石膏晶體結構基元形成,高SO2-4濃度改變瞭晶麵在不同軸嚮生長的相對速率,使c軸方嚮的生長具有優勢,從而改變瞭二水石膏晶體生長習性,使二水石膏晶體由闆狀變為針柱狀.
통과경석고수화솔、수화온도、액상리자농도측정화경화체현미결구분석,연구료Na2SO4대경석고수화진정화이수석고정체형모적영향,종이수석고정체생장각도탐토료Na2SO4적작용궤리.결과표명:Na2SO4가촉진경석고용해,사경석고수화솔제고,수화열집중,수화잠복기축단,수화진정가쾌;Na2SO4환가제고이수석고적석정과포화도,사이수석고림계정핵반경감소,정체성핵여생장속솔가쾌,정체척촌감소:Na2SO4형성부SO2-4액상,유리우이수석고정체결구기원형성,고SO2-4농도개변료정면재불동축향생장적상대속솔,사c축방향적생장구유우세,종이개변료이수석고정체생장습성,사이수석고정체유판상변위침주상.
The influence of sodium sulfate on the anhydrite hydration process and the crystal morphology of its dihydrate products were studied by the determination of the hydration rate, hydration temperature and the ion concentration in liquid phase, in combina-tion with the investigation of the mierostructure of the hardened anhydrite paste. Moreover, the activation mechanism of sodium sul-fate was analyzed from the view of the crystal growth of dihydrate gypsum. The results show that the addition of sodium sulfate pro-motes the dissolution of anhydrite, increases its hydration rate, concentrates its hydration heat evolution, shortens the hydration la-tency period, and thus accelerates the hydration process. On the other hand, the addition of sodium sulfate increases the supersatura-tion degree of dihydrate gypsum crystallization, decreases the critical nucleus radius of the gypsum crystal, and accelerates its crystal nucleation and growth, consequently leading to the refinement of the crystal size. The liquid environment rich in SO2-4 produced byadding sodium sulfate is beneficial for the formation of crystal structure units of dihydrate gypsum. Furthermore, high SO2-4 concen-tration changes the relative growth rate of the crystal face in different axials, promotes the preferential growth in the c-axis direction,and thus changes the growth behavior of the gypsum crystal, leading to the transformation of the crystal morphology from tabular to columnar.