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参考文献

[1] 孙坚,耿春雷,张作泰,等.工业固体废弃物资源综合利用技术现状[J].材料导报,2012,26(6):105-109.

[2] 史才军.碱-激发水泥和混凝土[M].北京:化学工业出版社,2008.

[3] PACHECO-TORGAL F,CASTRO-GOMES J,JALALI S. Alkali-activated binders:a review:part 1:historical background,terminology,reaction mechanisms and hydration products[J].Construction&Building Materials,2008,22(7):1305-1314.

[4] 约翰·普罗维斯,詹妮·范德文特.碱激发材料[M].刘泽,彭桂云,王栋民,等,译.北京:中国建材工业出版社,2019.

[5] J.Davidovits.Synthesis of New High-Temperature Geo-Polymers for Reinforced Plastics/Composites [J].SPEPACTEC,79 Society of Plastics Engineers. Brookfield Center,USA,P,1979:151-154.

[6] 叶家元.碱激发胶凝材料的昨天、今天和明天——从事低碳胶凝材料研究的体会与思考[J].中国建材,2015(2):98-101.

[7] Xiao J,Li W,Fan Y,et al. An overview of study on recycled aggregate concrete in ChiR(1996—2011)[J].Construction&Building Materials,2012,31(6):364-383.

[8] Xu H,Provis J L,Van Deventer J S J,et al. Characterization of aged slag concretes[J].ACI Mater.J,2008,105(2):131-139.

[9] Dugat J,Roux N,Bemier G.Mechanical properties of reactive powder concretes [J].Materials and Structures,1996,29(4):233-240.

[10] Kumar S,Kumar R,Bandopadhyay A,et al.Mechanical activation of granulated blast furRce slag and its effect on the properties and structure of portland slag cement [J].Cement and Concrete Composities,2008,30(8):679-685.

[11] 王新频.碱激发矿渣水泥水化C-A-S-H凝胶微观结构的研究[J].硅酸盐通报,2019,38(4):1062-1067.

[12] Wang S D,Scrivener K L,Praat P L.Factors affecting the strength of alkali-activted slag [J].Cem.Concr. RES,1994,24(6):1033-1043.

[13] 杨南如.一类新的胶凝材料[J].水泥技术,2004(3):11-17.

[14] 徐彬,蒲心诚.固态碱组分矿渣水泥水化过程研究[J].混凝土与水泥制品,1998(3):3-7.

[15] 祝丽萍,倪文,高术杰,等.赤泥-矿渣-石膏-少熟料胶凝材料的初期水化过程[J].硅酸盐通报,2012(4):766-770.

[16] 万惠文,高志飞,吴有武,等.利用煤矸石与页岩制备无熟料胶凝材料的研究[J].武汉理工大学学报,2013(6):23-28.

[17] 叶家元,张文生,史迪,等.低温养护及加水方式对碱激发铝土矿选尾矿砂浆强度的影响[J].硅酸盐通报,2013(4):537-541.

[18] 程从密,何娟,唐兵,等.电炉钢渣活性激发研究[J].广州大学学报:自然科学版,2012(1):53-57. Lq/K7QEj14OS6w8/YlAkqrW5kKdsXUCKEkI+0cLpDwqcCZPkTdQZdyOXkQMRTlQ+

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