太原理工大学学报
太原理工大學學報
태원리공대학학보
JOURNAL OF TAIYUAN UNIVERSITY OF TECHNOLOGY
2015年
4期
419-423
,共5页
柴丽娟%李珠%刘元珍%王文婧
柴麗娟%李珠%劉元珍%王文婧
시려연%리주%류원진%왕문청
微观结构%扫描电镜%玻化微珠%水泥浆体%界面过渡区
微觀結構%掃描電鏡%玻化微珠%水泥漿體%界麵過渡區
미관결구%소묘전경%파화미주%수니장체%계면과도구
micro-structure%scanning electron microscopy%glazed hollow bead%cement paste%interface transition zone
试验分析了5种温度梯度下玻化微珠保温混凝土的外观形貌和质量损失,利用扫描电镜(SEM )观察5种温度等级和两种不同冷却方式下保温混凝土的微观结构,定性分析微观物相对质量损失和裂缝开展的影响。试验结果表明:在100~500℃下,保温混凝土中保温骨料玻化微珠性能稳定;经历温度低于300℃时,保温混凝土孔内水分蒸发,质量损失率为4.36%,但基本不出现裂缝;经历温度为300~500℃时,保温混凝土中C‐S‐H凝胶结构和Ca (O H )2晶体由于失去水分而分解,质量损失率为6.22%,裂缝越来越多;浇水冷却方式下,保温混凝土内部发生水化反应生成 C‐S‐H凝胶和Ca(OH)2晶体,将孔隙填的更加密实,故其裂缝开展小于自然冷却下的裂缝开展。
試驗分析瞭5種溫度梯度下玻化微珠保溫混凝土的外觀形貌和質量損失,利用掃描電鏡(SEM )觀察5種溫度等級和兩種不同冷卻方式下保溫混凝土的微觀結構,定性分析微觀物相對質量損失和裂縫開展的影響。試驗結果錶明:在100~500℃下,保溫混凝土中保溫骨料玻化微珠性能穩定;經歷溫度低于300℃時,保溫混凝土孔內水分蒸髮,質量損失率為4.36%,但基本不齣現裂縫;經歷溫度為300~500℃時,保溫混凝土中C‐S‐H凝膠結構和Ca (O H )2晶體由于失去水分而分解,質量損失率為6.22%,裂縫越來越多;澆水冷卻方式下,保溫混凝土內部髮生水化反應生成 C‐S‐H凝膠和Ca(OH)2晶體,將孔隙填的更加密實,故其裂縫開展小于自然冷卻下的裂縫開展。
시험분석료5충온도제도하파화미주보온혼응토적외관형모화질량손실,이용소묘전경(SEM )관찰5충온도등급화량충불동냉각방식하보온혼응토적미관결구,정성분석미관물상대질량손실화렬봉개전적영향。시험결과표명:재100~500℃하,보온혼응토중보온골료파화미주성능은정;경력온도저우300℃시,보온혼응토공내수분증발,질량손실솔위4.36%,단기본불출현렬봉;경력온도위300~500℃시,보온혼응토중C‐S‐H응효결구화Ca (O H )2정체유우실거수분이분해,질량손실솔위6.22%,렬봉월래월다;요수냉각방식하,보온혼응토내부발생수화반응생성 C‐S‐H응효화Ca(OH)2정체,장공극전적경가밀실,고기렬봉개전소우자연냉각하적렬봉개전。
The morphology and mass loss at five temperature gradients of glazed hollow bead thermal insulation concrete were analyzed ,its micro‐structure was characterized by scanning elec‐tron microscopy(SEM) for five temperature ratings and two cooling modes .The effect of micro‐scopic objects on mass loss and crack development was analyzed .The results indicate that :at 100~500 ℃ ,the performance of glazed hollow bead is stable ;after exposed to less than 300 ℃ ,be‐cause of water evaporation of thermal insulation concrete ,the mass loss rate is 4.36% and almost no cracks occur on concrete ;when exposed to 300~500 ℃ ,C‐S‐H structures and Ca(OH)2 crys‐tals decompose owing to release of moisture ,the mass loss rate is 6.22% ,and more cracks occur on concrete with the increase in temperature ;with water cooling ,thermal insulation concrete oc‐curs new chemical reactions generating C‐S‐H structures and Ca(OH)2 crystals ,filling the pores , so the cracks are less than with natural cooling .