非金属矿
非金屬礦
비금속광
NON-METALLIC MINES
2014年
5期
14-17
,共4页
夏举佩%彭健%李国斌%苏毅%阳超琴
夏舉珮%彭健%李國斌%囌毅%暘超琴
하거패%팽건%리국빈%소의%양초금
钾长石%助剂%焙烧过程%XRD分析
鉀長石%助劑%焙燒過程%XRD分析
갑장석%조제%배소과정%XRD분석
potassium feldspar%accessory ingredient%roasting%XRD analysis
根据硫酸钙还原分解产物成分,通过钾长石自身高温特性和添加硫酸钙及分解产物焙烧反应研究,探明实际体系下焙烧反应历程。研究结果表明:在1200℃下,硫酸钙能与钾长石进行反应,形成低共熔物K2Ca2(SO4)3,此物质结构稳定,无水溶特性;CaS不与钾长石反应,二者独立存在于体系中;CaO有较好反应活性,能置换出钾长石中的氧化钾;在有硫酸钙存在时,当氧化钙量不足时生成K2S2O8,当氧化钙充足时则生成K2SO4。硅、铝酸的钙盐则与体系物料配比及操作条件有关。
根據硫痠鈣還原分解產物成分,通過鉀長石自身高溫特性和添加硫痠鈣及分解產物焙燒反應研究,探明實際體繫下焙燒反應歷程。研究結果錶明:在1200℃下,硫痠鈣能與鉀長石進行反應,形成低共鎔物K2Ca2(SO4)3,此物質結構穩定,無水溶特性;CaS不與鉀長石反應,二者獨立存在于體繫中;CaO有較好反應活性,能置換齣鉀長石中的氧化鉀;在有硫痠鈣存在時,噹氧化鈣量不足時生成K2S2O8,噹氧化鈣充足時則生成K2SO4。硅、鋁痠的鈣鹽則與體繫物料配比及操作條件有關。
근거류산개환원분해산물성분,통과갑장석자신고온특성화첨가류산개급분해산물배소반응연구,탐명실제체계하배소반응역정。연구결과표명:재1200℃하,류산개능여갑장석진행반응,형성저공용물K2Ca2(SO4)3,차물질결구은정,무수용특성;CaS불여갑장석반응,이자독립존재우체계중;CaO유교호반응활성,능치환출갑장석중적양화갑;재유류산개존재시,당양화개량불족시생성K2S2O8,당양화개충족시칙생성K2SO4。규、려산적개염칙여체계물료배비급조작조건유관。
Roasting reaction process was proved under real system according to reductive decomposition of calcium sulfate product ingredients, feldspar itself by adding calcium sulfate and high temperature properties and decomposition reaction of calcined product. The results show that: In 1200℃, calcium sulfate and potassium feldspar can react to form eutecticK2Ca2(SO4)3, this material structural stability, no water-soluble characteristics. CaS does not react with K-feldspar, both independent present in the system. CaO have better reactivity on the replacement of the potassium feldspar. in the presence of calcium sulfate, calcium oxide is generated when there is insufifcientK2S2O8, when sufifcient calcium oxide generatedK2SO4. Silicon, calcium aluminate and systems of the material ratio and operating conditions.