硫铝酸盐水泥低温条件下的水化及应用
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摘要
硫铝酸盐水泥具有快凝、快硬、早强、耐腐蚀能力强等特点,不仅适用于早期强度要求高、抗海水能力侵蚀要求高的工程,而且非常适合低温条件下的工程。近年来随着海洋工程以及极地开发建设需求的增加,硫铝酸盐水泥的研究与应用得到进一步重视。综述总结和分析了硫铝酸盐水泥主要组分在低温条件下的水化、性能特点及其应用情况,同时提出了其低温条件下的研究方向,以促进其低温条件下的研究与发展。
Calcium sulphoaluminate cement( CSA) is characterized by fast setting,fast hardness,early strength and high corrosion resistance. It is not only suitable for projects with high early strength requirements and high resistance to seawater erosion,but also very suitable for projects under low temperature. With the demand of marine engineering and polar development, the research and application of CSA have been paid more attention. The hydration reaction of CSA at low temperature was summarized. And the characteristics and application of CSA were discussed. Meanwhile,in order to have positive effect on the research and development of CSA at low temperature,the research and development direction of CSA at low temperature was suggested.
Calcium sulphoaluminate cement( CSA) is characterized by fast setting,fast hardness,early strength and high corrosion resistance. It is not only suitable for projects with high early strength requirements and high resistance to seawater erosion,but also very suitable for projects under low temperature. With the demand of marine engineering and polar development, the research and application of CSA have been paid more attention. The hydration reaction of CSA at low temperature was summarized. And the characteristics and application of CSA were discussed. Meanwhile,in order to have positive effect on the research and development of CSA at low temperature,the research and development direction of CSA at low temperature was suggested.
引文
[1]王燕谋,苏慕珍,张量.硫铝酸盐水泥[M].北京:北京工业大学出版社,1999.
[2]钱觉时,余金城,孙化强,等.钙矾石的形成与作用[J].硅酸盐学报,2017,45(11):1569-1581.
[3]王燕谋,苏慕珍,张量.硫铝酸盐水泥的分类及其各品种间的区别[J].中国水泥,2007(2):32-36.
[4]Hargis C W,Kirchheim A P,Monteiro P J M,et al.Early age hydration of calcium sulfoaluminate(synthetic ye'elimite,C4A3S math Container Loading Mathjax)in the presence of gypsum and varying amounts of calcium hydroxide[J].Cement&Concrete Research,2013,48:105-115.
[5]Hargis C W,Telesca A,Monteiro P J M.Calcium sulfoaluminate(Ye'elimite)hydration in the presence of gypsum,calcite,and vaterite[J].Cement&Concrete Research,2014,65:15-20.
[6]Zhou Q,Glasser F P.Thermal stability and decomposition mechanisms of ettringite at<120℃[J].Cement&Concrete Research,2001,31(9):1333-1339.
[7]J·a·迪安.兰氏化学手册[M].北京:科学出版社,2003.
[8]Liu L,Jaramillobotero A,Rd G W,et al.Development of a Reaxff reactive force field for ettringite and study of its mechanical failure modes from reactive dynamics simulations[J].Journal of Physical Chemistry A,2012,116(15):3918-3925.
[9]Kim C B,Kim B K,Choi S C.Characteristics of calcium trisulphoaluminate hydrates for rapid hardening of cement composites[J].Materials Science Forum,2007,544-545:669-672.
[10]Perkins R B,Palmer C D.Solubility of ettringite(Ca6[Al(OH)6]2(SO4)3·26H2O)at 5-75℃[J].Geochimica Et Cosmochimica Acta,1999,63(13-14):1969-1980.
[11]杨德山.石膏:物理-化学-生产-应用[M].北京:中国建筑工业出版社,1987.
[12]沈梅非,邓中言,刘克忠.双快型砂水泥中不同石膏形态的研究[J].硅酸盐学报,1982(3):60-70+131-132.
[13]Pelletier-Chaignat L,Winnefeld F,Lothenbach B,et al.Influence of the calcium sulphate source on the hydration mechanism of portland cementcalcium sulphoaluminate clinker-calcium sulphate binders[J].Cement&Concrete Composites,2011,33(5):551-561.
[14]王培铭,李楠,徐玲琳,等.低温养护下硫铝酸盐水泥的水化进程及强度发展[J].硅酸盐学报,2017,45(2):242-248.
[15]Li G,Zhang J,Song Z,et al.Improvement of workability and early strength of calcium sulphoaluminate cement at various temperature by chemical admixtures[J].Construction and Building Materials,2018,160:427-439.
[16]莫富治,肖展瑜.低温施工用快硬水泥的配方及性能试验研究[J].大众科技,2013(1):37-38.
[17]刘红杰,李九苏,赵明博,等.亚硝酸钙对硫铝酸盐水泥水化和强度的影响[J].交通科学与工程,2017(4):10-13.
[18]马兵,沈晓冬.外加剂对贝利特-硫铝酸盐水泥凝结时间及水化的影响[J].南京工业大学学报(自然科学版),2015,37(5):12-18.
[19]毛海涛,马浩森,严思文,等.减水剂对硫铝酸盐水泥早期水化影响[J].硅酸盐通报,2017,36(12):4163-4168.
[20]陈大川,程超,黄政宇.几种外加剂组分对硫铝酸盐水泥性能的影响[J].铁道科学与工程学报,2015(5):1074-1082.
[21]Pelletier-Chaignat L,Winnefeld F,Lothenbach B,et al.Beneficial use of limestone filler with calcium sulphoaluminate cement[J].Construction and Building Materials,2012,26(1):619-627.
[22]Wang P,Li N,Xu L.Hydration evolution and compressive strength of calcium sulphoaluminate cement constantly cured over the temperature range of 0 to 80℃[J].Cement and Concrete Research,2017,100:203-213.
[23]王培铭,范胜华,徐玲琳,等.低温养护对硫铝酸盐基三元复合体系水化性能的影响[J].水泥,2017(3):13-17.
[24]胥振洲.香山饭店设计与施工[J].建筑技术,1983(12):49-56.
[25]倪国元.北京长城饭店简介[J].建筑学报,1984(5):26-32.
[26]高宇.奠基传承逐梦--记硫(铁)铝酸盐水泥系列的研究开拓之路[J].混凝土世界,2018(4):69-74.
[27]林世霖.铁道部科学研究院一九八○年科技成果综述[J].铁道科技动态,1981(13):9-13.
[28]王燕谋.深化科技体制改革进一步开发特种水泥[J].中国水泥,2013(5):36-38.
[29]刘耘.水泥混凝土路桥面病害快速修复技术创新介绍[J].城市道桥与防洪,2017(8):216-218.
[30]赵亮.支线机场道面病害快速整治方法研究[J].建材与装饰,2017(27):230-232.
[2]钱觉时,余金城,孙化强,等.钙矾石的形成与作用[J].硅酸盐学报,2017,45(11):1569-1581.
[3]王燕谋,苏慕珍,张量.硫铝酸盐水泥的分类及其各品种间的区别[J].中国水泥,2007(2):32-36.
[4]Hargis C W,Kirchheim A P,Monteiro P J M,et al.Early age hydration of calcium sulfoaluminate(synthetic ye'elimite,C4A3S math Container Loading Mathjax)in the presence of gypsum and varying amounts of calcium hydroxide[J].Cement&Concrete Research,2013,48:105-115.
[5]Hargis C W,Telesca A,Monteiro P J M.Calcium sulfoaluminate(Ye'elimite)hydration in the presence of gypsum,calcite,and vaterite[J].Cement&Concrete Research,2014,65:15-20.
[6]Zhou Q,Glasser F P.Thermal stability and decomposition mechanisms of ettringite at<120℃[J].Cement&Concrete Research,2001,31(9):1333-1339.
[7]J·a·迪安.兰氏化学手册[M].北京:科学出版社,2003.
[8]Liu L,Jaramillobotero A,Rd G W,et al.Development of a Reaxff reactive force field for ettringite and study of its mechanical failure modes from reactive dynamics simulations[J].Journal of Physical Chemistry A,2012,116(15):3918-3925.
[9]Kim C B,Kim B K,Choi S C.Characteristics of calcium trisulphoaluminate hydrates for rapid hardening of cement composites[J].Materials Science Forum,2007,544-545:669-672.
[10]Perkins R B,Palmer C D.Solubility of ettringite(Ca6[Al(OH)6]2(SO4)3·26H2O)at 5-75℃[J].Geochimica Et Cosmochimica Acta,1999,63(13-14):1969-1980.
[11]杨德山.石膏:物理-化学-生产-应用[M].北京:中国建筑工业出版社,1987.
[12]沈梅非,邓中言,刘克忠.双快型砂水泥中不同石膏形态的研究[J].硅酸盐学报,1982(3):60-70+131-132.
[13]Pelletier-Chaignat L,Winnefeld F,Lothenbach B,et al.Influence of the calcium sulphate source on the hydration mechanism of portland cementcalcium sulphoaluminate clinker-calcium sulphate binders[J].Cement&Concrete Composites,2011,33(5):551-561.
[14]王培铭,李楠,徐玲琳,等.低温养护下硫铝酸盐水泥的水化进程及强度发展[J].硅酸盐学报,2017,45(2):242-248.
[15]Li G,Zhang J,Song Z,et al.Improvement of workability and early strength of calcium sulphoaluminate cement at various temperature by chemical admixtures[J].Construction and Building Materials,2018,160:427-439.
[16]莫富治,肖展瑜.低温施工用快硬水泥的配方及性能试验研究[J].大众科技,2013(1):37-38.
[17]刘红杰,李九苏,赵明博,等.亚硝酸钙对硫铝酸盐水泥水化和强度的影响[J].交通科学与工程,2017(4):10-13.
[18]马兵,沈晓冬.外加剂对贝利特-硫铝酸盐水泥凝结时间及水化的影响[J].南京工业大学学报(自然科学版),2015,37(5):12-18.
[19]毛海涛,马浩森,严思文,等.减水剂对硫铝酸盐水泥早期水化影响[J].硅酸盐通报,2017,36(12):4163-4168.
[20]陈大川,程超,黄政宇.几种外加剂组分对硫铝酸盐水泥性能的影响[J].铁道科学与工程学报,2015(5):1074-1082.
[21]Pelletier-Chaignat L,Winnefeld F,Lothenbach B,et al.Beneficial use of limestone filler with calcium sulphoaluminate cement[J].Construction and Building Materials,2012,26(1):619-627.
[22]Wang P,Li N,Xu L.Hydration evolution and compressive strength of calcium sulphoaluminate cement constantly cured over the temperature range of 0 to 80℃[J].Cement and Concrete Research,2017,100:203-213.
[23]王培铭,范胜华,徐玲琳,等.低温养护对硫铝酸盐基三元复合体系水化性能的影响[J].水泥,2017(3):13-17.
[24]胥振洲.香山饭店设计与施工[J].建筑技术,1983(12):49-56.
[25]倪国元.北京长城饭店简介[J].建筑学报,1984(5):26-32.
[26]高宇.奠基传承逐梦--记硫(铁)铝酸盐水泥系列的研究开拓之路[J].混凝土世界,2018(4):69-74.
[27]林世霖.铁道部科学研究院一九八○年科技成果综述[J].铁道科技动态,1981(13):9-13.
[28]王燕谋.深化科技体制改革进一步开发特种水泥[J].中国水泥,2013(5):36-38.
[29]刘耘.水泥混凝土路桥面病害快速修复技术创新介绍[J].城市道桥与防洪,2017(8):216-218.
[30]赵亮.支线机场道面病害快速整治方法研究[J].建材与装饰,2017(27):230-232.