水泥基材料的微观结构是表征其抗碳化性能的重要因素.首先总结了水泥基材料在加速碳化条件下碳化前后固相组成、孔相结构以及液相组成的演变,然后分析了温度、湿度、二氧化碳浓度等环境因素对水泥基材料碳化过程及微结构演变的影响,最后介绍了矿物掺合料在水泥基材料碳化方面的应用,并展望了碳化条件下微观结构演变的发展方向.
参考文献
| [1] | Influence of connectivity of concrete pores and associated diffusion of oxygen on corrosion of steel under high humidity[J].Construction and Building Materials,2010(6):p.1014. |
| [2] | Gonen T;Yazicioglu S .The influence of compaction pores on sorptivity and carbonation of concrete[J].CONSTRUCTION AND BUILDING MATERIALS,2007,21(5):1040. |
| [3] | 蒋正武,张楠,杨正宏.热孔计法表征水泥基材料孔结构的热力学计算模型[J].硅酸盐学报,2012(02):194-199. |
| [4] | Claus Pade;Maria Guimaraes .The CO_2 uptake of concrete in a 100 year perspective[J].Cement and Concrete Research,2007(9):1348-1356. |
| [5] | Da Silva F G;Helene P;Castro-Borges P et al.Sources of variations when comparing concrete carbonation results[J].JOURNAL OF MATERIALS IN CIVIL ENGINEERING,2009,21(7):333. |
| [6] | A.C. Garrabrants;F. Sanchez;D.S. Kosson .Changes in constituent equilibrium leaching and pore water characteristics of a Portland cement mortar as a result of carbonation[J].Waste Management,2004(1):19-36. |
| [7] | Yuan Y;Shen J;Ma Y et al.Comparison of concrete carbonation process under natural condition and high CO2 concentration environments[J].J Wuhan University of Technology:Mater Sci Ed,2010,25(3):515. |
| [8] | 郭斌;闵盘荣;王国宾.水化硅酸钙的碳化作用[J].硅酸盐学报,1984(3):287. |
| [9] | Kobayashi K;Suzuki K;Uno Y .Carbonation of concrete structures and decomposition of C-S-H[J].Cement and Concrete Research,1994,24(1):55. |
| [10] | Parrott L J.A review of carbonation in reinforced concrete[M].Wexhm Springs:Cement and Concrete Association,1987 |
| [11] | Morales-Florez, V.;Findling, N.;Brunet, F. .Changes on the nanostructure of cementitius calcium silicate hydrates (C-S-H) induced by aqueous carbonation[J].Journal of Materials Science,2012(2):764-771. |
| [12] | 何娟,杨长辉.硅酸盐水泥混凝土的碳化分析[J].硅酸盐通报,2009(06):1225-1229. |
| [13] | 孙抱真;苏而达 .水化硅酸钙的结晶度与碳化速度[J].硅酸盐学报,1984,12(3):281. |
| [14] | Garbev K;Stemmermann P;Black L;Breen C;Yarwood J;Gasharova B .Structural features of C-S-H(I) and its carbonation in air - A Raman spectroscopic study. Part I: Fresh phases[J].Journal of the American Ceramic Society,2007(3):900-907. |
| [15] | Leon Black;Krassimir Garbev;Ian Gee .Surface carbonation of synthetic C-S-H samples: A comparison between fresh and aged C-S-H using X-ray photoelectron spectroscopy[J].Cement and Concrete Research,2008(6):745-750. |
| [16] | Rochelle, C.A.;Milodowski, A.E..Carbonation of borehole seals: Comparing evidence from short-term laboratory experiments and long-term natural analogues[J].Applied Geochemistry: Journal of the International Association of Geochemistry and Cosmochemistry,2013:161-177. |
| [17] | Marta Castellote;Lorenzo Fernandez;Carmen Andrade;Cruz Alonso .Chemical changes and phase analysis of OPC pastes carbonated at different CO_2 concentrations[J].Materials and structures,2009(4):515-525. |
| [18] | Short NR.;Page CL.;Purnell P. .Preliminary investigations into the supercritical carbonation of cement pastes[J].Journal of Materials Science,2001(1):35-41. |
| [19] | Farahi E;Purnell P;Short N R .Supercritical carbonation of calcareous composites:Influence of curing[J].Cement and concrete composites,2013,43:48. |
| [20] | Farahi E;Purnell P;Short N R .Supercritical carbonation of calcareous composites:Influence of mix design[J].Cement and concrete composites,2013,43:12. |
| [21] | Paulo H.R. Borges;Juliana 0. Costa;Neil B. Milestone .Carbonation of CH and C-S-H in composite cement pastes containing high amounts of BFS[J].Cement and Concrete Research,2010(2):284-292. |
| [22] | Visser J H M .Influence of the carbon dioxide concentration on the resistance to carbonation of concrete[J].CONSTRUCTION AND BUILDING MATERIALS,2013,67:8. |
| [23] | Domingo C;Loste E;Gomez-Morales J;Garcia-Carmona J;Fraile J .Calcite precipitation by a high-pressure CO2 carbonation route[J].The Journal of Supercritical Fluids,2006(3):202-215. |
| [24] | Black L;Breen C;Yarwood J;Garbev K;Stemmermann P;Gasharova B .Structural features of C-S-H(I) and its carbonation in air - A Raman spectroscopic study. Part II: Carbonated phases[J].Journal of the American Ceramic Society,2007(3):908-917. |
| [25] | Groves G W;Brough A;Richardson I G et al.Progressive changes in the structure of hardened C3 S cement pastes due to carbonation[J].Journal of the American Ceramic Society,1991,74(11):2891. |
| [26] | Nishikawa T;Suzuki K .Chemical conversion of CSH in concrete[J].Cement and Concrete Research,1994,24(1):176. |
| [27] | M. Thiery;G. Villain;P. Dangla .Investigation of the carbonation front shape on cementitious materials: Effects of the chemical kinetics[J].Cement and Concrete Research,2007(7):1047-1058. |
| [28] | Wan K;Xu Q;Wang Y et al.3D spatial distribution of the calcium carbonate caused by carbonation of cement paste[J].Cement and concrete composites,2014,45:255. |
| [29] | 元成方,牛荻涛,陈娜,段付珍.碳化对混凝土微观结构的影响[J].硅酸盐通报,2013(04):687-691,707. |
| [30] | Pihlajavaara S E .Some results of the effect of carbonation on the porosity and pore size distribution of cement paste[J].Matér Constr,1968,1(6):521. |
| [31] | Dewaele P J;Reardon E J;Dayal R .Permeability and porosity changes associated with cement grout carbonation[J].Cement and Concrete Research,1991,21(4):441. |
| [32] | Bjorn Johannesson;Peter Utgenannt .Microstructural changes caused by carbonation of cement mortar[J].Cement and Concrete Research,2001(6):925-931. |
| [33] | Peter A. Claisse;Hanaa El-Sayad;Lbrahim G. Shaaban .Permeability and Pore Volume of Carbonated Concrete[J].ACI structural journal,1999(3):378-381. |
| [34] | 赵铁军,李淑进.碳化对混凝土渗透性及孔隙率的影响[J].工业建筑,2003(01):46-47,16. |
| [35] | Chindaprasirt P;Rukzon S .Pore structure changes of blended cement pastes containing fly ash,rice husk ash,and palm oil fuel ash caused by carbonation[J].JOURNAL OF MATERIALS IN CIVIL ENGINEERING,2009,21(11):666. |
| [36] | 方永浩,张亦涛,莫祥银,陈宇峰.碳化对水泥石和砂浆的结构及砂浆渗透性的影响[J].河海大学学报(自然科学版),2005(01):104-107. |
| [37] | 肖婷,方永浩,章凯,王海侠.碳化对粉煤灰水泥石比表面积和孔径的影响[J].建筑材料学报,2005(04):452-455. |
| [38] | Han J;Sun W;Pan G et al.Monitoring the evolution of accelerated carbonation of hardened cement pastes by X-ray computed tomography[J].JOURNAL OF MATERIALS IN CIVIL ENGINEERING,2012,25(3):347. |
| [39] | Lu Cui;Jong Herman Cahyadi .Permeability and pore structure of OPC paste[J].Cement and Concrete Research,2001(2):277-282. |
| [40] | 赵铁军.混凝土渗透性[M].北京:科学出版社,2006 |
| [41] | 郭剑飞 .混凝土孔结构与强度关系理论研究[D].浙江大学,2004. |
| [42] | Jian Zhou;Guang Ye;Klaas van Breugel .Characterization of pore structure in cement-based materials using pressurization-depressurization cycling mercury intrusion porosimetry (PDC-MIP)[J].Cement and Concrete Research,2010(7):1120-1128. |
| [43] | Mohammed M K;Dawson A R;Thom N H .Carbonation of filler typed self-compacting concrete and its impact on the microstructure by utilization of 100% CO2 accelerating techniques[J].CONSTRUCTION AND BUILDING MATERIALS,2014,50:508. |
| [44] | 刘建国,王洪涛,聂永丰.多孔介质中溶质有效扩散系数预测的分形模型[J].水科学进展,2004(04):458-462. |
| [45] | KENICHIRO NAKARAI;TETSUYA ISHIDA;KOICHI MAEKAWA .MULTI-SCALE PHYSICOCHEMICAL MODELING OF SOIL-CEMENTITIOUS MATERIAL INTERACTION[J].Soils and foundations,2006(5):653-663. |
| [46] | Chaube R;Kishi T;Maekawa K.Modelling of concrete performance:Hydration,microstructure and mass transport[M].Boca Raton,Florida:CRC Press,2005 |
| [47] | Van Brakel J;Heertjes P M .Analysis of diffusion in macroporous media in terms of a porosity,a tortuosity and a constrictivity factor[J].International Journal of Heat and Mass Transfer,1974,17(9):1093. |
| [48] | P.Navi;C.Pignat .Three-dimensional characterization of the pore structure of a simulated cement paste[J].Cement and Concrete Research,1999(4):507-514. |
| [49] | M.A.B. Promentilla;T. Sugiyama;T. Hitomi .Quantification of tortuosity in hardened cement pastes using synchrotron-based X-ray computed microtomography[J].Cement and Concrete Research,2009(6):548-557. |
| [50] | Characterizing The 3d Pore Structure Of Hardened Cement Paste With Synchrotron Microtomography[J].Journal of advanced concrete technology,2008(2):273-286. |
| [51] | Yoshito NAKASHIMA;Susumu KAMIYA .Mathematica Programs for the Analysis of Three-Dimensional Pore Connectivity and Anisotropic Tortuosity of Porous Rocks using X-ray Computed Tomography Image Data[J].Journal of Nuclear Science and Technology,2007(9):1233-1247. |
| [52] | Nakashima Y;Nakano T;Nakamura K et al.Three-dimensional diffusion of non-sorbing species in porous sandstone:Computer simulation based on X-ray microtomography using synchrotron radiation[J].Journal of Contaminant Hydrology,2004,74(1):253. |
| [53] | 左晓宝 .荷载与环境耦合作用下混凝土耐久性退化过程中离子的扩散反应规律的数学模型及数值分析[D].南京:东南大学,2011. |
| [54] | 刘琳,孙伟,叶光,陈惠苏,van BREUGEL Klaas.预测水化水泥浆体离子扩散性能的一种新方法[J].硅酸盐学报,2010(11):2159-2166. |
| [55] | Cedric J.Gommes;Anton-Jan Bons;Silvia Blacher .Practical Methods for Measuring the Tortuosity of Porous Materials from Binary or Gray-Tone Tomographic Reconstructions[J].AIChE Journal,2009(8):2000-2012. |
| [56] | Sasaki K;Saeki T.Effect of mineral admixtures and carbonation on microstructure and chloride diffusion of cementitious materials[A].London:Taylor & Francis Group,2009:943. |
| [57] | 刘志勇,孙伟,周新刚.混凝土气体扩散系数测试方法理论研究[J].混凝土,2005(11):3-5,9. |
| [58] | 柳俊哲.混凝土碳化研究与进展(3)--腐蚀因子的迁移[J].混凝土,2006(01):51-54. |
| [59] | Ishida T;Maekawa K.Modeling of pH profile in pore water based on mass transport and chemical equilibrium theory[A].Dotoku Gakkai,2000:203. |
| [60] | Ishida T;Maekawa K;Soltani M .Theoretically identified strong coupling of carbonation rate and thermodynamic moisture states in micropores of concrete[J].J Adv Concr Techn,2004(2):213. |
| [61] | Modeling Of Carbonation Based On Thermo-hygro Physics With Strong Coupling Of Mass Transport And Equilibrium In Micro-pore Structure Of Concrete[J].Journal of advanced concrete technology,2008(2):303-316. |
| [62] | Meng Heng;Katsuo Murata .Aging of Concrete Buildings and Determining the pH Value on the Surface of Concrete by Using a Handy Semi-Conductive pH Meter[J].Analytical Sciences: The International Journal of The Japan Society for Analytical Chemistry,2004(7):1087-1090. |
| [63] | C.-F. Chang;J.-W. Chen .The experimental investigation of concrete carbonation depth[J].Cement and Concrete Research,2006(9):1760-1767. |
| [64] | 元成方,牛荻涛,段付珍,齐广政.碳化过程中混凝土模拟孔溶液pH值变化规律研究[J].硅酸盐通报,2011(05):1126-1130. |
| [65] | Saeki T;Ohga H;Nagataki S .Mechanism of carbonation and prediction of carbonation process of concrete[J].Concr Lib JSCE,1991,17:23. |
| [66] | Papadakis V G et al.A reaction engineering approach to the problem of concrete carbonation[J].AICHE Journal,1989,35(10):1639. |
| [67] | 姬永生,董亚男,袁迎曙,吴晓峰,柏霞.混凝土孔隙水饱和度的机理分析[J].四川建筑科学研究,2010(02):215-218,223. |
| [68] | Papadakis V G;Vayenas C G;Fardis M N .Physical and chemical characteristics affecting the durability of concrete[J].ACI MATERIALS JOURNAL,1991,88(2):186. |
| [69] | Hagymassy Jr J;Brunauer S;Mikhail R S .Pore structure analysis by water vapor adsorption:I.t-curves for water vapor[J].Journal of Colloid and Interface Science,1969,29(3):485. |
| [70] | Houst Y F .The role of moisture in the carbonation of cementitious materials[J].Int Z Bauinstandsetz Baudenkmalpflege,1996,2:49. |
| [71] | Papadakis V G;Vayenas C G;Fardis M N .Experimental investigation and mathematical modeling of the concrete carbonation problem[J].Chemical engineering science,1991,46(5):1333. |
| [72] | Galan, I.;Andrade, C.;Castellote, M. .Thermogravimetrical analysis for monitoring carbonation of cementitious materials: Uptake of CO _2 and deepening in C-S-H knowledge[J].Journal of thermal analysis and calorimetry,2012(1):309-319. |
| [73] | C.Andrade;J.Sarria .Relative humidity in the interior of concrete exposed to natural and artificial weathering[J].Cement and Concrete Research,1999(8):1249-1259. |
| [74] | Dong-Woo Ryu;Jeong-Won Ko;Takafumi Noguchi .Effects of simulated environmental conditions on the internal relative humidity and relative moisture content distribution of exposed concrete[J].Cement & concrete composites,2011(1):142-153. |
| [75] | Roy S K;Poh K B;Northwood D O .Durability of concrete-Accelerated carbonation and weathering studies[J].Building and Environment,1999,34(5):597. |
| [76] | Chen C T;Ho C W .Influence of cyclic humidity on carbonation of concrete[J].JOURNAL OF MATERIALS IN CIVIL ENGINEERING,2012,25(12):1929. |
| [77] | Yang T.;Keller B.;Magyari E.;Hametner K.;Gunther D. .Direct observation of the carbonation process on the surface of calcium hydroxide crystals in hardened cement paste using an Atomic Force Microscope[J].Journal of Materials Science,2003(9):1909-1916. |
| [78] | López-Arce P;Gómez-Villalba L S;Martínez-Ramírez S et al.Influence of relative humidity on the carbonation of calcium hydroxide nanoparticles and the formation of calcium carbonate polymorphs[J].Powder Techn,2011,205(1):263. |
| [79] | Maekawa K;Ishida T;Kishi T.Multi-scale modeling of structural concrete[M].New York:Taylor & Francis,2008 |
| [80] | Roy S K;Beng P K;Northwood D O .The carbonation of concrete structures in the tropical environment of Singapore and a comparison with published data for temperate climates[J].MAGAZINE OF CONCRETE RESEARCH,1996,48(177):293. |
| [81] | 李果,袁迎曙,耿欧.气候条件对混凝土碳化速度的影响[J].混凝土,2004(11):49-51,53. |
| [82] | Loo Y H;Chin M S;Tam C T et al.A carbonation prediction model for accelerated carbonation testing of concrete[J].MAGAZINE OF CONCRETE RESEARCH,1994,46(168):191. |
| [83] | Yingshu Yuan;Jianhua Jiang .Prediction of temperature response in concrete in a natural climate environment[J].Construction and Building Materials,2011(8):3159-3167. |
| [84] | Yuan Y;Du J;Ji Y .Determination of the apparent activation energy of concrete carbonation[J].J Wuhan University of Technology:Mater Sci Ed,2013,28(5):944. |
| [85] | 陶津,柳献,袁勇,Luc.Taerwe.高温下自密实混凝土的瞬态应变[J].建筑材料学报,2009(01):47-51. |
| [86] | 贾福萍,李奔奔.高温对粉煤灰混凝土抗碳化性能影响研究[J].混凝土,2011(11):80-82. |
| [87] | 刘亚芹 .混凝土碳化引起的钢筋锈蚀实用计算模式[D].同济大学,1997. |
| [88] | 谢东升 .高性能混凝土碳化特性及相关性能的研究[D].河海大学,2005. |
| [89] | Neves R;Branco F;de Brito J .Field assessment of the relationship between natural and accelerated concrete carbonation resistance[J].Cement and concrete composites,2013,41:9. |
| [90] | M. Castellote;C. Andrade;X. Turrillas .Accelerated carbonation of cement pastes in situ monitored by neutron diffraction[J].Cement and Concrete Research,2008(12):1365-1373. |
| [91] | Yoon IS;Copuroglu O;Park KB .Effect of global climatic change on carbonation progress of concrete[J].Atmospheric environment,2007(34):7274-7285. |
| [92] | Stewart M G;Wang X;Nguyen M N .Climate change adaptation for corrosion control of concrete infrastructure[J].Structural Safety,2012,35:29. |
| [93] | Talukdar S;Banthia N .Carbonation in concrete infrastructure in the context of global climate change:Development of a service lifespan model[J].CONSTRUCTION AND BUILDING MATERIALS,2013,40:775. |
| [94] | T. Saeki;P.J.M. Monteiro .A model to predict the amount of calcium hydroxide in concrete containing mineral admixtures[J].Cement and Concrete Research,2005(10):1914-1921. |
| [95] | Ohga H;Nagataki S .Prediction and evaluation of the depth of carbonation of concrete by accelerated test[J].Concr Lib JSCE,1989,7:93. |
| [96] | Ngala V T;Page C L .Effects of carbonation on pore structure and diffusional properties of hydrated cement pastes[J].Cement and Concrete Research,1997,27(7):995. |
| [97] | Yoda A .Neutralization of blast furnace slag cement concrete naturally exposed for 40 years and the effect of finishing materials (in Japanese)[J].Cem Sci Concr Techn,2002,56:449. |
| [98] | Asaga K;Ito S;Suzuki Y.Changes in the pore structure of the hardened body with large water cement ratio by the carbonation process[A].济南,2010 |
| [99] | 周万良,方坤河,詹炳根.掺粉煤灰、矿粉混凝土抗碳化性能研究[J].混凝土与水泥制品,2012(12):14-19. |
| [100] | Wang A;Zhang C;Sun W .Fly ash effects:Ⅲ.The microaggregate effect of fly ash[J].Cement and Concrete Research,2004,34(11):2061. |
| [101] | 张亚梅,余保英.掺超细矿粉水泥基材料早龄期水化产物及孔结构特性[J].东南大学学报(自然科学版),2011(04):815-819. |
| [102] | P. Sulapha;S. F. Wong;T. H. Wee;S. Swaddiwudhipong .Carbonation of Concrete Containing Mineral Admixtures[J].Journal of Materials in Civil Engineering,2003(2):134-143. |
| [103] | Xiong Zhang;Keru Wu;An Yan .Carbonation property of hardened binder pastes containing super-pulverized blast-furnace slag[J].Cement & concrete composites,2004(4):371-374. |
| [104] | Duan P;Shui Z;Chen W et al.Effects of metakaolin,silica fume and slag on pore structure,interfacial transition zone and compressive strength of concrete[J].CONSTRUCTION AND BUILDING MATERIALS,2013,44:1. |
| [105] | Gao Yingli;Cheng Ling;Gao Zheming;Guo Shiying .Effects of different mineral admixtures on carbonation resistance of lightweight aggregate concrete[J].Construction and Building Materials,2013(Jun.):506-510. |
| [106] | Elke Gruyaert;Philip Van den Heede;Nele De Belie .Carbonation of slag concrete: Effect of the cement replacement level and curing on the carbonation coefficient - Effect of carbonation on the pore structure[J].Cement & concrete composites,2013(1):39-48. |
| [107] | A. Bouikni;R.N. Swamy;A. Bali .Durability properties of concrete containing 50% and 65% slag[J].Construction and Building Materials,2009(8):2836-2845. |
| [108] | Kinoshita H;Circhirillo C;Sanmartin I et al.Carbonation of composite cements with high mineral admixture content used for radioactive waste encapsulation[J].Minerals Engineering,2014,59:107. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%