Characterizations of autogenous and drying shrinkage of ultra-high performance concrete (UHPC): An experimental study
暂无分享,去创建一个
P. Visintin | M. M. Ali | P. Visintin | T. Xie | C. Fang | C. Fang | M. M. Mohamad Ali | T. Xie | C. Fang | M.S. Mohamad Ali | P. Visintin
[1] Zhihui Sun,et al. Monitoring hydration of UHPC and conventional paste by quantitative analysis on Raman patterns , 2016 .
[2] K. Breugel,et al. Autogenous shrinkage in high-performance cement paste: An evaluation of basic mechanisms , 2003 .
[3] G. Ryu,et al. Effects of mix proportion and curing condition on shrinkage behavior of HPFRCCs with silica fume and blast furnace slag , 2018 .
[4] Nemkumar Banthia,et al. Mechanical properties of ultra-high-performance fiber-reinforced concrete: A review , 2016 .
[5] Su-Tae Kang,et al. Effect of shrinkage reducing admixture on tensile and flexural behaviors of UHPFRC considering fiber distribution characteristics , 2013 .
[6] D. Oehlers,et al. Blending macro- and micro-fibres to enhance the serviceability behaviour of UHPFRC , 2018 .
[7] P. Yan,et al. Relationship between delayed ettringite formation and delayed expansion in massive shrinkage-compensating concrete , 2004 .
[8] R. Flatt,et al. The Role of Paste Volume on Performance of Concrete , 2009, SP-261: 10th ACI International Conference on Recent Advances in Concrete Technology and Sustainability Issues.
[9] K. Kovler,et al. Prevention of autogenous shrinkage in high-strength concrete by internal curing using wet lightweight aggregates , 2001 .
[10] S. Staquet,et al. Determination of time-zero and its effect on autogenous deformation evolution , 2011 .
[11] V. Li,et al. Influence of aggregate type and size on ductility and mechanical properties of engineered cementitious composites , 2009 .
[12] Wei Sun,et al. Effect of cement substitution by limestone on the hydration and microstructural development of ultra-high performance concrete (UHPC) , 2017 .
[13] P. K. Mehta. Mechanism of expansion associated with ettringite formation , 1973 .
[14] D. Bentz,et al. Shrinkage-reducing admixtures and early-age desiccation in cement pastes and mortars , 2001 .
[15] Kyung-Taek Koh,et al. Shrinkage Properties of Ultra-High Performance Concrete (UHPC) , 2011 .
[16] Ajay Gupta,et al. Influence of sand grading on the characteristics of mortars and soil–cement block masonry , 2008 .
[17] D. Bui,et al. Rice husk ash as both pozzolanic admixture and internal curing agent in ultra-high performance concrete , 2014 .
[18] K. Scrivener,et al. The Interfacial Transition Zone (ITZ) Between Cement Paste and Aggregate in Concrete , 2004 .
[19] K. Folliard,et al. Properties of high-performance concrete containing shrinkage-reducing admixture , 1997 .
[20] Young Soo Yoon,et al. Shrinkage and cracking of restrained ultra-high-performance fiber-reinforced concrete slabs at early age , 2014 .
[21] S. Srinivasan,et al. Quantification of hydrated cement products of blended cements in low and medium strength concrete using TG and DTA technique , 2003 .
[22] P. L. Pratt,et al. An experimental argument for the existence of a protective membrane surrounding portland cement during the induction period , 1979 .
[23] Ahmed M. Soliman,et al. Effect of drying conditions on autogenous shrinkage in ultra-high performance concrete at early-age , 2011 .
[24] Ivan Odler,et al. 6 – Hydration, Setting and Hardening of Portland Cement , 1998 .
[25] P. Visintin,et al. New Testing Approach for Extracting the Shear Friction Material Properties of Ultra-High-Performance Fiber-Reinforced Concrete , 2018, Journal of Materials in Civil Engineering.
[26] Ahmed M. Soliman,et al. Effects of shrinkage reducing admixture and wollastonite microfiber on early-age behavior of ultra-high performance concrete , 2014 .
[27] A. C. V. Coelho,et al. Hydration of a Portland cement blended with calcium carbonate , 2000 .
[28] C. Shi,et al. A review on ultra high performance concrete: Part I. Raw materials and mixture design , 2015 .
[29] C. Shi,et al. A review on ultra high performance concrete: Part II. Hydration, microstructure and properties , 2015 .
[30] Jianxin Ma,et al. Comparative Investigations on Ultra-High Performance Concrete with and without Coarse Aggregates , 2004 .
[31] Hao Wang,et al. Autogenous shrinkage of high performance concrete: A review , 2017 .
[32] N. Banthia,et al. Effectiveness of shrinkage-reducing admixture in reducing autogenous shrinkage stress of ultra-high-performance fiber-reinforced concrete , 2015 .
[33] Michael C. Griffith,et al. Experimental and numerical study of the flexural behaviour of ultra-high performance fibre reinforced concrete beams , 2017 .
[34] J. Park,et al. Benefits of using expansive and shrinkage-reducing agents in UHPC for volume stability , 2014 .
[35] Benjamin A. Graybeal,et al. Ultra-High Performance Concrete: A State-of-the-Art Report for the Bridge Community , 2013 .
[36] Habibur Rahman Sobuz,et al. Flow and Strength Characteristics of Ultra-high Performance Fiber Reinforced Concrete: Influence of Fiber Type and Volume-fraction , 2017 .
[37] Phillip Visintin,et al. Experimental investigation of moment redistribution in ultra-high performance fibre reinforced concrete beams , 2018 .
[38] D. Bentz,et al. Standard Test Method for Autogenous Strain of Cement Paste and Mortar , 2007 .
[39] O. Jensen,et al. Use of Superabsorbent Polymers in Concrete , 2013 .
[40] Michael C. Griffith,et al. Manufacturing ultra-high performance concrete utilising conventional materials and production methods , 2016 .
[41] Xudong Chen,et al. Influence of water-to-cement ratio and curing period on pore structure of cement mortar , 2013 .
[42] Hamed M. Kayello,et al. An Application of Computer‐Aided Molecular Design (CAMD) Using the Signature Molecular Descriptor–Part 2. Evaluating Newly Identified Surface Tension‐Reducing Substances for Potential Use as Shrinkage‐Reducing Admixtures , 2014 .
[43] Gyu-Yong Kim,et al. Analysis of hydration heat and autogenous shrinkage of high-strength mass concrete , 2011 .
[44] Hjh Jos Brouwers,et al. Effect of nano-silica on the hydration and microstructure development of Ultra-High Performance Concrete (UHPC) with a low binder amount , 2014 .
[45] Özgür Eren,et al. Relationship between 28-days Compressive Strength and Compression Toughness Factor of Ultra High Performance Concrete Using Design of Experiments☆ , 2016 .
[46] M. Lachemi,et al. High-early-strength ductile cementitious composites with characteristics of low early-age shrinkage for repair of infrastructures , 2015 .
[47] Mohamed Lachemi,et al. Internal curing of engineered cementitious composites for prevention of early age autogenous shrinkage cracking , 2009 .
[48] J. Park,et al. Influence of ring size on the restrained shrinkage behavior of ultra high performance fiber reinforced concrete , 2014 .
[49] Peter V. Coveney,et al. Anomalous fluorescence in near-infrared Raman spectroscopy of cementitious materials , 2005 .
[50] C. T. Tam,et al. EFFECT OF WATER-TO-CEMENTITIOUS MATERIALS RATIO AND SILICA FUME ON THE AUTOGENOUS SHRINKAGE OF CONCRETE , 2003 .
[51] R. Lytton,et al. Theoretical Prediction of Drying Shrinkage of Concrete , 1995 .
[52] E. Kadri,et al. Hydration heat kinetics of concrete with silica fume , 2009 .
[53] Viktor Mechtcherine,et al. Effect of internal curing by using superabsorbent polymers (SAP) on autogenous shrinkage and other properties of a high-performance fine-grained concrete: results of a RILEM round-robin test , 2014 .
[54] A. Atkinson,et al. Automated identification of the aggregate–paste interfacial transition zone in mortars of silica sand with Portland or alkali-activated slag cement paste , 2000 .
[55] M. Ward,et al. Effect of silica fume and fly ash on heat of hydration of Portland cement , 2002 .
[56] Su Anshuang,et al. Effects of Shrinkage Reducing Agent and Expansive Admixture on the Volume Deformation of Ultrahigh Performance Concrete , 2017 .
[57] N. Buenfeld,et al. Determining the slag fraction, water/binder ratio and degree of hydration in hardened cement pastes , 2014 .
[58] N. Banthia,et al. Ultra-High-Performance Fiber-Reinforced Concrete: Shrinkage Strain Development at Early Ages and Potential for Cracking , 2017 .
[59] N. Banthia,et al. Geometrical and boundary condition effects on restrained shrinkage behavior of UHPFRC slabs , 2017 .
[60] C. Poon,et al. Degree of hydration and gel/space ratio of high-volume fly ash/cement systems , 2000 .
[61] R. Troli,et al. Effects of shrinkage reducing admixture in shrinkage compensating concrete under non-wet curing conditions , 2005 .
[62] Nick R. Buenfeld,et al. Determining the water–cement ratio, cement content, water content and degree of hydration of hardened cement paste: Method development and validation on paste samples , 2009 .
[63] Liu Cao,et al. Experimental investigation on shrinkage and water desorption of the paste in high performance concrete , 2016 .
[64] Bruce G. Smith. Durability of Silica Fume Concrete Exposed to Chloride in Hot Climates , 2001 .
[65] Halit Yazici,et al. Effects of ambient temperature and relative humidity on early-age shrinkage of UHPC with high-volume mineral admixtures , 2017 .
[66] A. Soliman,et al. Effect of partially hydrated cementitious materials and superabsorbent polymer on early-age shrinkage of UHPC , 2013 .
[67] Young Soo Yoon,et al. Influence of reinforcing bar type on autogenous shrinkage stress and bond behavior of ultra high performance fiber reinforced concrete , 2014 .
[68] J. Marchand,et al. INFLUENCE OF CURING TEMPERATURE ON CEMENT HYDRATION AND MECHANICAL STRENGTH DEVELOPMENT OF FLY ASH MORTARS , 1997 .