硅酸盐通报
硅痠鹽通報
규산염통보
BULLETIN OF THE CHINESE CERAMIC SOCIETY
2009年
5期
919-925
,共7页
建筑石膏%抗折强度%表面硬度
建築石膏%抗摺彊度%錶麵硬度
건축석고%항절강도%표면경도
set gypsum%rupture strength%surface hardness
考察了熟石灰、三聚氰胺、聚乙烯醇、反应助剂等外加剂对建筑石膏制品抗折强度和表面硬度的影响.结果表明,熟石灰添加量在0~10%时,随着熟石灰添加量增加,硬化浆体的抗折强度随之稍有降低,但表面硬度随之增大.三聚氰胺添加量为2%时,建筑石膏硬化浆体的抗折强度最高.三聚氰胺添加量为4%时,建筑石膏硬化浆体的表面硬度最高.聚乙烯醇的适宜添加量为0.8%.反应助剂的添加量大于3%时,建筑石膏硬化浆体抗折强度和表面硬度随反应助剂添加量的增加呈现出相反的变化趋势.SEM表明,外加剂使二水石膏晶体的形貌和排列发生了明显的变化,微观结晶体以针状和柱状为主,晶体间相互紧密搭接构成致密的网状结构,且晶体排列整齐,气孔分布均一,试样抗折强度和表面硬度均比较高.
攷察瞭熟石灰、三聚氰胺、聚乙烯醇、反應助劑等外加劑對建築石膏製品抗摺彊度和錶麵硬度的影響.結果錶明,熟石灰添加量在0~10%時,隨著熟石灰添加量增加,硬化漿體的抗摺彊度隨之稍有降低,但錶麵硬度隨之增大.三聚氰胺添加量為2%時,建築石膏硬化漿體的抗摺彊度最高.三聚氰胺添加量為4%時,建築石膏硬化漿體的錶麵硬度最高.聚乙烯醇的適宜添加量為0.8%.反應助劑的添加量大于3%時,建築石膏硬化漿體抗摺彊度和錶麵硬度隨反應助劑添加量的增加呈現齣相反的變化趨勢.SEM錶明,外加劑使二水石膏晶體的形貌和排列髮生瞭明顯的變化,微觀結晶體以針狀和柱狀為主,晶體間相互緊密搭接構成緻密的網狀結構,且晶體排列整齊,氣孔分佈均一,試樣抗摺彊度和錶麵硬度均比較高.
고찰료숙석회、삼취청알、취을희순、반응조제등외가제대건축석고제품항절강도화표면경도적영향.결과표명,숙석회첨가량재0~10%시,수착숙석회첨가량증가,경화장체적항절강도수지초유강저,단표면경도수지증대.삼취청알첨가량위2%시,건축석고경화장체적항절강도최고.삼취청알첨가량위4%시,건축석고경화장체적표면경도최고.취을희순적괄의첨가량위0.8%.반응조제적첨가량대우3%시,건축석고경화장체항절강도화표면경도수반응조제첨가량적증가정현출상반적변화추세.SEM표명,외가제사이수석고정체적형모화배렬발생료명현적변화,미관결정체이침상화주상위주,정체간상호긴밀탑접구성치밀적망상결구,차정체배렬정제,기공분포균일,시양항절강도화표면경도균비교고.
The rupture strength and surface hardness of set gypsum was studied by doping in additive agents as calcium hydroxide、melamine、polyvinyl alcohol、reactant addition agent. The dose of each additive reagent was investigated. The rupture strength was slightly reduced while surface hardness was increased during the increasing dose of calcium hydroxide varied from 0 to 10%. The rupture strength was the highest when the dose of melamine was 2%. The surface hardness was best when the dose of melamine was 4%. The appropriate dose of polyvinyl alcohol was 0.8%. It was demonstrated that the trend of rupture strength and surface hardness of set gypsum was opposite when the dose of reactant addition agent increased from 3%. The SEM shows that the morphology and arrangement of the dihydrate gypsum crystal have been apparently changed by the influence of additive agents. The shape of the micro-crystal was almost needle-like and cylindrical. The rigid net structure has been formed by crossed micro-crystal and the arrangement of crystal has been in order. The gas-pocket structure has been dispersed homogeneously. Accordingly, high rupture strength and surface hardness of the set gypsum have been obtained.
