耐火材料
耐火材料
내화재료
REFRACTORIES
2014年
2期
111-115
,共5页
谢靖%陈树森%闵鑫%黄朝晖%刘艳改%房明浩
謝靖%陳樹森%閔鑫%黃朝暉%劉豔改%房明浩
사정%진수삼%민흠%황조휘%류염개%방명호
蛇纹石%合成堇青石%配料组成%合成温度
蛇紋石%閤成堇青石%配料組成%閤成溫度
사문석%합성근청석%배료조성%합성온도
serpentine%synthesized cordierite%formulation%synthesis temperature
以连云港市东海蛇纹石粉为主要原料,辅以α-Al2 O3和石英粉高温合成堇青石,分别配成符合理论组成的配方,SiO2质量分数比理论组成分别多5和10百分点的配方,以及Al2 O3质量分数比理论组成分别多5和10百分点的配方,经球磨、造粒、烘干、冷等静压成型后,分别在1050、1100、1150、1200和1250℃保温2 h,然后检测试样的显气孔率、体积密度和常温抗折强度,并进行XRD和SEM分析。结果表明:合成的堇青石呈较完整的六方柱状形貌;增大石英粉的添加量能降低材料的合成温度,制得致密度较高的堇青石材料;增大α-Al2 O3添加量,合成的堇青石气孔较多,结构疏松。
以連雲港市東海蛇紋石粉為主要原料,輔以α-Al2 O3和石英粉高溫閤成堇青石,分彆配成符閤理論組成的配方,SiO2質量分數比理論組成分彆多5和10百分點的配方,以及Al2 O3質量分數比理論組成分彆多5和10百分點的配方,經毬磨、造粒、烘榦、冷等靜壓成型後,分彆在1050、1100、1150、1200和1250℃保溫2 h,然後檢測試樣的顯氣孔率、體積密度和常溫抗摺彊度,併進行XRD和SEM分析。結果錶明:閤成的堇青石呈較完整的六方柱狀形貌;增大石英粉的添加量能降低材料的閤成溫度,製得緻密度較高的堇青石材料;增大α-Al2 O3添加量,閤成的堇青石氣孔較多,結構疏鬆。
이련운항시동해사문석분위주요원료,보이α-Al2 O3화석영분고온합성근청석,분별배성부합이론조성적배방,SiO2질량분수비이론조성분별다5화10백분점적배방,이급Al2 O3질량분수비이론조성분별다5화10백분점적배방,경구마、조립、홍간、랭등정압성형후,분별재1050、1100、1150、1200화1250℃보온2 h,연후검측시양적현기공솔、체적밀도화상온항절강도,병진행XRD화SEM분석。결과표명:합성적근청석정교완정적륙방주상형모;증대석영분적첨가량능강저재료적합성온도,제득치밀도교고적근청석재료;증대α-Al2 O3첨가량,합성적근청석기공교다,결구소송。
Cordierite was prepared at high temperatures using serpentine powder from Donghai Lianyunga-ng as the main starting material,adding α-Al2 O3 and quartz powder.Five formulations were adopted:stoi-chiometric,SiO2 addition 5% or 10% higher than the stoichiometric,and Al2 O3 addition 5% or 10% higher than the stoichiometric.The batched materials were ball milled,granulated,dried,cold isostatic pressed and fired at 1 050,1 100,1 150,1 200,and 1 250 ℃for 2 h,respectively.The apparent porosity,bulk density and cold modulus of rupture of the prepared specimens were tested,and specimens were analyzed by XRD and SEM.The results show that the synthesized cordierite has a complete hexagonal columnar mor-phology;increasing quartz powder addition reduces the synthesis temperature,obtaining denser cordier-ite;increasing α-Al2 O3 addition leads to porous cordierite with a loose structure.
