非金属矿
非金屬礦
비금속광
NON-METALLIC MINES
2015年
1期
35-37,41
,共4页
刘志刚%霍超%杨立荣%白瑞英%王静%王春梅%封孝信
劉誌剛%霍超%楊立榮%白瑞英%王靜%王春梅%封孝信
류지강%곽초%양립영%백서영%왕정%왕춘매%봉효신
亚硫酸钙型脱硫石膏%煅烧%粉煤灰%胶凝材料
亞硫痠鈣型脫硫石膏%煅燒%粉煤灰%膠凝材料
아류산개형탈류석고%단소%분매회%효응재료
calcium sulifte desulfurization gypsum%calcine%lfy ash%cementing material
以亚硫酸钙型脱硫石膏(CSDG)为原料,通过煅烧和添加改性剂(粉煤灰、明矾和无水Na2SO4)制备石膏基胶凝材料。研究了CSDG煅烧氧化过程,利用正交实验研究了改性剂加入方式、改性剂掺量、煅烧温度对胶凝材料强度的影响,并通过DTA-TG、SEM和XRD分析了影响胶凝材料强度的机理。结果表明,CaSO3在空气中488℃可被氧化为CaSO4;CSDG与改性剂混合后煅烧制备的胶凝材料,比CSDG单独煅烧再掺入改性剂的胶凝材料各龄期强度明显提高;粉煤灰掺入量是影响强度的关键因素;CSDG与改性剂混合煅烧制备胶凝材料的适宜工艺参数为煅烧温度700℃,粉煤灰掺入量30%,明矾3%,无水Na2SO41%。CSDG与改性剂混合煅烧,Ca(OH)2和硫酸盐在高温下活化了掺入的粉煤灰,因而使胶凝材料的强度明显提高。
以亞硫痠鈣型脫硫石膏(CSDG)為原料,通過煅燒和添加改性劑(粉煤灰、明礬和無水Na2SO4)製備石膏基膠凝材料。研究瞭CSDG煅燒氧化過程,利用正交實驗研究瞭改性劑加入方式、改性劑摻量、煅燒溫度對膠凝材料彊度的影響,併通過DTA-TG、SEM和XRD分析瞭影響膠凝材料彊度的機理。結果錶明,CaSO3在空氣中488℃可被氧化為CaSO4;CSDG與改性劑混閤後煅燒製備的膠凝材料,比CSDG單獨煅燒再摻入改性劑的膠凝材料各齡期彊度明顯提高;粉煤灰摻入量是影響彊度的關鍵因素;CSDG與改性劑混閤煅燒製備膠凝材料的適宜工藝參數為煅燒溫度700℃,粉煤灰摻入量30%,明礬3%,無水Na2SO41%。CSDG與改性劑混閤煅燒,Ca(OH)2和硫痠鹽在高溫下活化瞭摻入的粉煤灰,因而使膠凝材料的彊度明顯提高。
이아류산개형탈류석고(CSDG)위원료,통과단소화첨가개성제(분매회、명반화무수Na2SO4)제비석고기효응재료。연구료CSDG단소양화과정,이용정교실험연구료개성제가입방식、개성제참량、단소온도대효응재료강도적영향,병통과DTA-TG、SEM화XRD분석료영향효응재료강도적궤리。결과표명,CaSO3재공기중488℃가피양화위CaSO4;CSDG여개성제혼합후단소제비적효응재료,비CSDG단독단소재참입개성제적효응재료각령기강도명현제고;분매회참입량시영향강도적관건인소;CSDG여개성제혼합단소제비효응재료적괄의공예삼수위단소온도700℃,분매회참입량30%,명반3%,무수Na2SO41%。CSDG여개성제혼합단소,Ca(OH)2화류산염재고온하활화료참입적분매회,인이사효응재료적강도명현제고。
The gypsum-based cementing material was prepared by calcining and adding modiifer(lfy ash, alum and Na2SO4) using calcium sulifte desulfurization gypsum(CSDG) as raw materials. The oxidation effect of CSDG during calcination process was studied and the inlfuence of the adding style, adding amount of the modiifers, and temperature of calcination were studied by orthogonal experiment. The strength enhanced mechanism was analyzed by DTA-TG, SEM and XRD. The results show that CaSO3 can be oxidized into CaSO4 at 488℃. The strength of the gypsum based cementing material prepared by mixing CSDG and modiifer before being calcined is much higher than that prepared by mixing calcined CSDG and modiifer after the CSDG was calcined alone at any hydration ages. The amount of lfy ash has an important effect on the strength of the gypsum-based cementing materials. The proper preparation parameters are listed as follow: the heat temperature is 700℃ and the amounts of lfy ash, alum and anhydrous Na2SO4 are 30%, 3% and 1%, respectively. The strength of cementing material was improved signiifcantly due to the activation of lfy ash by Ca(OH)2 and sulfate together under high temperature.