无机聚合物混凝土性能综述
|
摘要
介绍了无机聚合物混凝土这种新型的无机胶凝复合材料的特点,并分别从无机聚合物混凝土的性能、无机聚合物混凝土高温条件下的性能、无极聚合物混凝土柱构件性能研究三个方面综述了目前国内外无机聚合物混凝土的研究进展,也指出了无机聚合物混凝土研究及应用方面的问题,为无机聚合物混凝土进一步的研究指明了方向。
The characteristics of this new type of inorganic cementing materials are introduced in details in this paper. The performance of the inorganic polymer concrete, inorganic polymer concrete under the condition of high temperature performance, the infinite polymer concrete column of eccentric compression performance study at home and abroad is reviewed in three aspects: the problems in the inorganic polymer concrete, research is pointed out which indicates the direction of the further research of inorganic polymer concrete.
The characteristics of this new type of inorganic cementing materials are introduced in details in this paper. The performance of the inorganic polymer concrete, inorganic polymer concrete under the condition of high temperature performance, the infinite polymer concrete column of eccentric compression performance study at home and abroad is reviewed in three aspects: the problems in the inorganic polymer concrete, research is pointed out which indicates the direction of the further research of inorganic polymer concrete.
引文
[1]袁晓辉,卢哲安,范小春,等.无机聚合物混凝土-钢筋拉拔试验研究[J].武汉理工大学学报,2013,35(6):117-122.
[2]范小春,刘东,颜岩,等.无机聚合物混凝土路面板不同龄期抗压性能试验研究[J].混凝土,2012(4):69-71.
[3]卢哲安,卢方志,朱乃龙,等.无机聚合物混凝土疲劳性能试验研究[J].混凝土,2011(7):1-3.
[4]朱靖塞,许金余,罗鑫.地质聚合物混凝土的高温损伤特性研究[J].混凝土,2014(8):8-10.
[5]金鑫,卢哲安,范小春.无机聚合物混凝土应力-应变全曲线试验研究[J].混凝土,2013(11):58-60.
[6]蔡良才,付亚伟,曹定国,等.无机聚合物混凝土的腐蚀耐久性能研究[J].混凝土,2011(2):36-39.
[7]颜岩,唐佩,范小春,等.钢筋无机聚合物混凝土梁裂缝分形特征试验研究[J].混凝土,2012(8):47-50.
[8]王引平,王冬一.无机聚合物混凝土力学性能研究[J].四川建筑,2014(6):238-240.
[9]范小春,刘悦,毕雨田.玄武岩筋无机聚合物混凝土偏心受压短柱有限元分析[J].混凝土,2017(3):36-42.
[10]Davidovits J,Sawyer J L.Early high-strength mineral polymer:US,US 4509985 A[P].1985.
[11]Purdon A O.The action of alkalis on blast-furnace slag[J].Soc.Chem.Ind.1940,59:191-202.
[12]Prabir Kumar Sarker.Bond strength of reinforcing steel embedded in fly ash-based geopolymer concrete[J].Materials and Structures,2011,44:1021-1030.
[13]邵浙渝.无机聚合物混凝土水化过程和碳化性能研究[D].武汉理工大学,2014.
[14]施劲松.无机聚合物混凝土的温度应力试验研究[D].武汉理工大学,2014.
[15]任俊儒,陈辉国,杜江.无机聚合物混凝土高温性能研究综述[J].四川兵工学报,2016,37(3):138-142.
[16]Hamdy K.Shehab,Ahmed S.Eisa,Ahmed M.Wahba.Mechanical properties of fly ash based geopolymer concrete with full and partial cement replacement[J].Construction and Building Materials,2016,126.
[17]Dionys Van Gemert,?zlem Cizer.Merging Cement Concrete,Concrete-Polymer Composites and Inorganic Polymer Technologies for Sustainability in Construction and Restoration[J].Advanced Materials Research,2015,3903(1129).
[18]李兆恒,陈晓文,杨永民,张君禄,吴清华.BFRP无机聚合物海砂混凝土柱承载特性[J].广东水利电力职业技术学院学报,2017,(01):1-4.
[19]Wongpa J,Kiattikomol K,Jaturapitakkul C,et al.Compressive strength,modulus of elasticity,and water permeability of inorganic polymer concrete[J].Materials&Design,2010,31(10):4748-4754.
[20]Jaarsveld J G S V,Deventer J S J V.Effect of the alkali metal activator on the properties of fly ash-based geopolymers[J].Industrial&Engineering Chemistry Research,1999,38(10):3932-3941.
[21]Xu H,Deventer J S J V,Lukey G C.Effect of Alkali Metals on the Preferential Geopolymerization of Stilbite/Kaolinite Mixtures[J].Industrial&Engineering Chemistry Research,2001,40(17):3749-3756.
[22]Sofi M,Deventer J S J V,Mendis P A,et al.Bond performance of reinforcing bars in inorganic polymer concrete(IPC)[J].Journal of Materials Science,2007,42(9):3107-3116.
[23]J.Něme?ek,P.Padevět,B.Patzák,et al.Effect of transversal reinforcement in normal and high strength concrete columns[J].Materials and Structures,2005,38(7):665-671.
[24]Tue N V,Li J,Caner F C.Microplane constitutive model M4L for concrete.I:Theory[J].Computers&Structures,2013,128(9):219-229.
[25]Jacopo Donnini,Francisco De Caso y Basalo,Valeria Corinaldesi,Giovanni Lancioni,Antonio Nanni.Fabric-reinforced cementitious matrix behavior at high-temperature:Experimental and numerical results[J].Composites Part B,2017,108.
[26]刘国粹,陈辉国,钟庭,宋浩.钢筋-无机聚合物混凝土高温黏结试验方法优选研究[J].后勤工程学院学报,2017,(01):16-20.
[27]Kim Y J,Siriwardanage T,Hmidan A,et al.Material characteristics and residual bond properties of organic and inorganic resins for CFRP composites in thermal exposure[J].Construction&Building Materials,2014,50(2):631-641.
[28]Mackechnie J R,Bellamy L A.Thermal performance of variable density wall panels made using Portland cement or inorganic polymer concrete[J].Materials and Structures,2015,48(3):643-651.
[29]Song X,Gu X,Li Y,et al.Mechanical Behavior of FRP-Strengthened Concrete Columns Subjected to Concentric and Eccentric Compression Loading[J].Journal of Composites for Construction,2013,17(3):336-346.
[30]Barr B I G,Sener S,Abusiaf H F.Size-effect tests in unreinforced concrete columns[J].Magazine of Concrete Research,1999,51(1):3-11.
[31]J.Něme?ek,P.Padevět,B.Patzák,et al.Effect of transversal reinforcement in normal and high strength concrete columns[J].Materials and Structures,2005,38(7):665-671.
[32]Trapko T.Effect of eccentric compression loading on the strains of FRCM confined concrete columns[J].Construction&Building Materials,2014,61(7):97-105.
[33]Allwood R J,Bajarwan A A.A new method for modelling reinforcement and bond in finite element analyses of reinforced concrete[J].International Journal for Numerical Methods in Engineering,2010,28(4):833-844.
[34]Trapko T.Behaviour of fibre reinforced cementitious matrix strengthened concrete columns under eccentric compression loading[J].Materials&Design(1980-2015),2014,54(2):947-954.
[35]杜亚成.圆钢管无机聚合物混凝土柱偏压性能研究[D].武汉理工大学,2014.
[2]范小春,刘东,颜岩,等.无机聚合物混凝土路面板不同龄期抗压性能试验研究[J].混凝土,2012(4):69-71.
[3]卢哲安,卢方志,朱乃龙,等.无机聚合物混凝土疲劳性能试验研究[J].混凝土,2011(7):1-3.
[4]朱靖塞,许金余,罗鑫.地质聚合物混凝土的高温损伤特性研究[J].混凝土,2014(8):8-10.
[5]金鑫,卢哲安,范小春.无机聚合物混凝土应力-应变全曲线试验研究[J].混凝土,2013(11):58-60.
[6]蔡良才,付亚伟,曹定国,等.无机聚合物混凝土的腐蚀耐久性能研究[J].混凝土,2011(2):36-39.
[7]颜岩,唐佩,范小春,等.钢筋无机聚合物混凝土梁裂缝分形特征试验研究[J].混凝土,2012(8):47-50.
[8]王引平,王冬一.无机聚合物混凝土力学性能研究[J].四川建筑,2014(6):238-240.
[9]范小春,刘悦,毕雨田.玄武岩筋无机聚合物混凝土偏心受压短柱有限元分析[J].混凝土,2017(3):36-42.
[10]Davidovits J,Sawyer J L.Early high-strength mineral polymer:US,US 4509985 A[P].1985.
[11]Purdon A O.The action of alkalis on blast-furnace slag[J].Soc.Chem.Ind.1940,59:191-202.
[12]Prabir Kumar Sarker.Bond strength of reinforcing steel embedded in fly ash-based geopolymer concrete[J].Materials and Structures,2011,44:1021-1030.
[13]邵浙渝.无机聚合物混凝土水化过程和碳化性能研究[D].武汉理工大学,2014.
[14]施劲松.无机聚合物混凝土的温度应力试验研究[D].武汉理工大学,2014.
[15]任俊儒,陈辉国,杜江.无机聚合物混凝土高温性能研究综述[J].四川兵工学报,2016,37(3):138-142.
[16]Hamdy K.Shehab,Ahmed S.Eisa,Ahmed M.Wahba.Mechanical properties of fly ash based geopolymer concrete with full and partial cement replacement[J].Construction and Building Materials,2016,126.
[17]Dionys Van Gemert,?zlem Cizer.Merging Cement Concrete,Concrete-Polymer Composites and Inorganic Polymer Technologies for Sustainability in Construction and Restoration[J].Advanced Materials Research,2015,3903(1129).
[18]李兆恒,陈晓文,杨永民,张君禄,吴清华.BFRP无机聚合物海砂混凝土柱承载特性[J].广东水利电力职业技术学院学报,2017,(01):1-4.
[19]Wongpa J,Kiattikomol K,Jaturapitakkul C,et al.Compressive strength,modulus of elasticity,and water permeability of inorganic polymer concrete[J].Materials&Design,2010,31(10):4748-4754.
[20]Jaarsveld J G S V,Deventer J S J V.Effect of the alkali metal activator on the properties of fly ash-based geopolymers[J].Industrial&Engineering Chemistry Research,1999,38(10):3932-3941.
[21]Xu H,Deventer J S J V,Lukey G C.Effect of Alkali Metals on the Preferential Geopolymerization of Stilbite/Kaolinite Mixtures[J].Industrial&Engineering Chemistry Research,2001,40(17):3749-3756.
[22]Sofi M,Deventer J S J V,Mendis P A,et al.Bond performance of reinforcing bars in inorganic polymer concrete(IPC)[J].Journal of Materials Science,2007,42(9):3107-3116.
[23]J.Něme?ek,P.Padevět,B.Patzák,et al.Effect of transversal reinforcement in normal and high strength concrete columns[J].Materials and Structures,2005,38(7):665-671.
[24]Tue N V,Li J,Caner F C.Microplane constitutive model M4L for concrete.I:Theory[J].Computers&Structures,2013,128(9):219-229.
[25]Jacopo Donnini,Francisco De Caso y Basalo,Valeria Corinaldesi,Giovanni Lancioni,Antonio Nanni.Fabric-reinforced cementitious matrix behavior at high-temperature:Experimental and numerical results[J].Composites Part B,2017,108.
[26]刘国粹,陈辉国,钟庭,宋浩.钢筋-无机聚合物混凝土高温黏结试验方法优选研究[J].后勤工程学院学报,2017,(01):16-20.
[27]Kim Y J,Siriwardanage T,Hmidan A,et al.Material characteristics and residual bond properties of organic and inorganic resins for CFRP composites in thermal exposure[J].Construction&Building Materials,2014,50(2):631-641.
[28]Mackechnie J R,Bellamy L A.Thermal performance of variable density wall panels made using Portland cement or inorganic polymer concrete[J].Materials and Structures,2015,48(3):643-651.
[29]Song X,Gu X,Li Y,et al.Mechanical Behavior of FRP-Strengthened Concrete Columns Subjected to Concentric and Eccentric Compression Loading[J].Journal of Composites for Construction,2013,17(3):336-346.
[30]Barr B I G,Sener S,Abusiaf H F.Size-effect tests in unreinforced concrete columns[J].Magazine of Concrete Research,1999,51(1):3-11.
[31]J.Něme?ek,P.Padevět,B.Patzák,et al.Effect of transversal reinforcement in normal and high strength concrete columns[J].Materials and Structures,2005,38(7):665-671.
[32]Trapko T.Effect of eccentric compression loading on the strains of FRCM confined concrete columns[J].Construction&Building Materials,2014,61(7):97-105.
[33]Allwood R J,Bajarwan A A.A new method for modelling reinforcement and bond in finite element analyses of reinforced concrete[J].International Journal for Numerical Methods in Engineering,2010,28(4):833-844.
[34]Trapko T.Behaviour of fibre reinforced cementitious matrix strengthened concrete columns under eccentric compression loading[J].Materials&Design(1980-2015),2014,54(2):947-954.
[35]杜亚成.圆钢管无机聚合物混凝土柱偏压性能研究[D].武汉理工大学,2014.