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International Journal of Pavement Engineering Volume 11, 2010 - Issue 5: Multi-Scale Characterisation and Modelling of Stone-Based Infrastructure Materials
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Original Articles

High-strength self-curing low-shrinkage concrete for pavement applications

M. Lopez Department of Construction Engineering and Management, School of Engineering, Pontificia Universidad Católica de Chile, Santiago, Chile
,
L.F. Kahn School of Civil and Environmental Engineering, Georgia Institute of Technology, Atlanta, GA, USA
&
K.E. Kurtis School of Civil and Environmental Engineering, Georgia Institute of Technology, Atlanta, GA, USACorrespondence[email protected]
Pages 333-342 | Received 29 Jan 2010, Accepted 20 Apr 2010, Published online: 19 Jul 2010

References

  • ACI Committee 213 . 2003 . “ Guide for structural lightweight-aggregate concrete ” . In ACI manual of concrete practice , 38 Farmington Hills : American Concrete Institute .
  • ACI Committee 318 . 2002 . Building code requirements for structural concrete (ACI318-02), and commentary (ACI 318R-02) , Farmington Hills : American Concrete Institute .
  • ACI Committee 363 . 1998 . “ Guide to quality control and testing of high-strength concrete ” . In ACI manual of concrete practice , 18 Farmington Hills : American Concrete Institute .
  • ASTM C 157 . 1999 . Standard test method for length change of hardened hydraulic-cement mortar and concrete , West Conshohocken, PA : American Society for Testing and Materials .
  • ASTM C 191 . 2004 . Standard test method for time of setting of hydraulic cement by Vicat needle , West Conshohocken, PA : American Society for Testing and Materials .
  • ASTM C 39 . 2004 . Standard test method for compressive strength of cylindrical concrete specimens , West Conshohocken, PA : American Society for Testing and Materials .
  • ASTM C 469 . 2002 . Standard test method for static modulus of elasticity and Poisson's ratio of concrete in compression , West Conshohocken, PA : American Society for Testing and Materials .
  • Ayers , M.E. and Khan , M.S. Overview of fly ash and silica fume concretes: the need for rational curing standards . Concrete Technology: Past, Present, and Future, Proceedings of V. Mohan Malhotra Symposium . pp. 605 – 617 .
  • Aïtcin , P.-C. 1998 . High-performance concrete , 591 London–New York : E. & F.N. Spon .
  • Bentur , A. , Igarashi , S., and Kovler , K. 2001 . Prevention of autogenous shrinkage in high-strength concrete by internal curing using wet lightweight aggregates . Cement and Concrete Research , 31 ( 11 ) : 1587 – 1591 .
  • Bentz , D.P. and Snyder , K.A. 1999 . Protected paste volume in concrete – extension to internal curing using saturated lightweight fine aggregate . Cement and Concrete Research , 29 ( 11 ) : 1863 – 1867 .
  • Bremner , T.W. and Holm , T.A. 1986 . Elastic compatibility and the behavior of concrete . Journal of the American Concrete Institute , 83 ( 2 ) : 244 – 250 .
  • Geiker , M.R. , Bentz , D.P. and Jensen , O.M. 2002 . “ Mitigating autogenous shrinkage by internal curing ” . In High performance structural lightweight concrete. SP-218 , 143 – 154 . Farmington Hills : American Concrete Institute .
  • Holm , T.A. and Bremner , T.W. 2000 . State-of-the-art report on high-strength, high-durability structural low-density concrete for applications in severe marine environments , Vicksburg, MS : US Army Corps of Engineers. Engineer Research and Development Center, Structures Laboratory .
  • Holm , T.A. , Ooi , O.S. and Bremner , T.W. Moisture dynamics in lightweight aggregate and concrete . Theodore Bremner Symposium on High-Performance Lightweight Concrete . pp. 167 – 184 .
  • Jensen , O.M. and Hansen , P.F. 1995 . A dilatometer for measuring autogenous deformation in hardening Portland-cement paste . Materials and Structures , 28 ( 181 ) : 406 – 409 .
  • Jensen , O.M. and Hansen , P.F. 2001a . Autogenous deformation and RH-change in perspective . Cement and Concrete Research , 31 ( 12 ) : 1859 – 1865 .
  • Jensen , O.M. and Hansen , P.F. 2001b . Water-entrained cement-based materials I. Principles and theoretical background . Cement and Concrete Research , 31 ( 4 ) : 647 – 654 .
  • Jensen , O.M. and Hansen , P.F. 2002 . Water-entrained cement-based materials II. Experimental observations . Cement and Concrete Research , 32 ( 6 ) : 973 – 978 .
  • Kohno , K. 1999 . Effects of artificial lightweight aggregate on autogenous shrinkage of concrete . Cement and Concrete Research , 29 ( 4 ) : 611 – 614 .
  • Kovler , K. and Jensen , O.M. 2005 . Novel techniques for concrete curing – new methods for low w/cm mixtures . Concrete International , 27 ( 9 ) : 39 – 42 .
  • Lopez, M., 2005. Creep and shrinkage of high performance lightweight concrete a multi-scale investigation. Thesis (PhD). Georgia Institute of Technology
  • Lopez, M., Kurtis, K.E., and Kahn, L.F., 2003. Creep strain distribution and deformation mechanisms of high performance lightweight concrete. In: Advances in Cement and Concrete, 423–428
  • Lopez , M. , Kahn , L.F. and Kurtis , K.E. 2005 . Internal curing in high performance concretes – a new paradigm (in Spanish) . Revista Ingenieria de Construccion , 20 ( 2 ) : 117 – 126 .
  • Lopez , M. , Kurtis , K.E. and Kahn , L.F. Pre-wetted lightweight coarse aggregate reduces long-term deformations of high performance lightweight concrete . 7th CANMET/ACI International Conference on Durability of Concrete, SP-234 . pp. 661 – 680 .
  • Malhotra , V.M. and Mehta , P.K. 2005 . High-performance, high-volume fly ash concrete: materials, mixture proportions, properties, construction practice, and case histories , Ottawa : Supplementary Cementing Materials for Sustainable Development Inc .
  • Mehta , P.K. and Monteiro , P.J.M. 1993 . Concrete: microstructure, properties, and materials , New York : McGraw-Hill .
  • Neubauer , C.M. and Jennings , H.M. 2000 . The use of digital images to determine deformation throughout a microstructure – Part II – Application to cement paste . Journal of Materials Science , 35 ( 22 ) : 5751 – 5765 .
  • Neubauer , C.M. 1997 . Drying shrinkage of cement paste as measured in an environmental scanning electron microscope and comparison with microstructural models . Journal of Materials Science , 32 ( 24 ) : 6415 – 6427 .
  • Neville , A.M. 1964 . Creep of concrete as function of its cement paste content . Magazine of Concrete Research , 16 ( 46 ) : 21 – 30 .
  • Neville , A.M. 1996 . Properties of concrete , New York : J. Wiley .
  • Philleo , R. 1991 . “ Concrete science and reality ” . In Materials science of concrete II , 1 – 8 . Westerville, OH : American Ceramic Society .
  • Pickett , G. 1956 . Effect of aggregate on shrinkage of concrete and hypothesis concerning shrinkage . Journal of the American Concrete Institute , 27 ( 5 ) : 581 – 590 .
  • Powers , T.C. 1947 . A discussion of cement hydration in relation to the curing of concrete , 178 – 188 . Skokie : Bulletin 25, Portland Cement Association .
  • Powers , T.C. 1960 . Physical properties of cement paste , 577 – 613 . Skokie : Bulletin 154, Portland Cement Association .
  • Powers , T.C. and Brownyard , T.L. 1948 . Studies on the physical properties of hardened cement paste , Skokie : Bulletin 22, Portland Cement Association .
  • Powers , T.C. , Copeland , L.E. and Mann , H.M. 1959 . Capillary continuity or discontinuity in cement pastes , 1 – 12 . Skokie : Bulletin 110, Portland Cement Association .
  • RILEM TC 196-ICC, 2005. Internal curing of concrete (draft)
  • Thomas , M.D.A. Chloride diffusion in high-performance lightweight aggregate concrete . Theodore Bremner Symposium on High-Performance Lightweight Concrete . pp. 77 – 93 .
  • Videla , C. and Lopez , M. 2000 . Influence of lightweight aggregate intrinsic strength on compressive strength and modulus of elasticity of lightweight concrete . Revista Ingenieria de Construccion , 15 ( 1 ) : 43 – 57 .
  • Videla , C. and Lopez , M. 2002 . Effect of lightweight aggregate intrinsic strength on lightweight concrete compressive strength and modulus of elasticity . Materiales De Construccion , 52 ( 265 ) : 23 – 37 .
  • Weber , S. and Reinhardt , H.W. 1997 . A new generation of high performance concrete: concrete with autogenous curing . Advanced Cement Based Materials , 6 ( 2 ) : 59 – 68 .
  • Zhutovsky , S. , Kovler , K. and Bentur , A. 2002 . Efficiency of lightweight aggregates for internal curing of high strength concrete to eliminate autogenous shrinkage . Materials and Structures , 35 ( 246 ) : 97 – 101 .

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