Unified calculation method and its application in determining the uniaxial mechanical properties of concrete

GB50010-2002. Code for Design of Concrete Structures. Beijing: China Building Industry Press, 2002 (in Chinese)

China Academy of Building Research. Study Report of Reinforced Concrete Structure, Vol. 1 (Basic Mechanical Indexes of Concrete). Beijing: China Building Industry Press, 1977, 21–36 (in Chinese)

Chen Z Y, Zhu J Q, Wu P G. High-strength Concrete and Its Applications. Beijing: Tsinghua University Press, 1992 (in Chinese)

China Academy of Building Research. Study Report of Reinforced Concrete Structure, Vol. 3 (Mechanical Properties of High-Strength Concrete). Beijing: China Building Industry Press, 1994 (in Chinese)

Li H, Zhou W S, Wang Z Y, et al. The basic mechanical properties of high performance concrete and very high performance concrete with and without reinforcement. Journal of Building Structures, 2003, 24(5): 58–71 (in Chinese)

Zhao W L. Tang J Y. Mechanical properties of self-compacting concrete. Sichuan Building Science, 2006, 32(2): 142–145 (in Chinese)

CEB-FIP MODEL CODE 1990, Bulletin D’Information No. 213/214. Lausanne, Switzerland: Comite Euro-International du Beton, 1993

Norwegian Standard N S 3473. Design of Concrete Structures. Norwegian Council for Building Standardization, Oslo, Norway, 1992 (in Norwegian)

Howard N L, Leatham D M. The production and delivery of highstrength concrete. Concrete International: Design & Construction, 1989, 11(4): 26–30

Carrasquillo P M, Carrasquillo R L. Evaluation of the use of current concrete practice in the production of high-strength concrete. ACI Materials Journal, 1988: 85(1): 49–54

Yazici S, Inansezer G. The effect of cylindrical specimen size on the compressive strength of concrete. Building and Environment, 2007, 42(6): 2417–2420

Lessard M, Chaallal O, Atcin P C. Testing high-strength concrete compressive strength. ACI Materials Journal, 1993, 90(4): 303–308

Aitcin P C, Miao B, Cook W D, et al. Effects of size and curing on cylinder compressive strength of normal and high-strength concrete. ACI Materials Journal, 1994, 91(4): 349–354

GBJ10-89. Specifcations for Design of concrete structures. Beijing: China Architecture and Building Press, 1990 (in Chinese)

Li J K, Wang W. Basic mechanical indexes of high strength concrete. Industrial Construction, 1997, 27(8): 50–54 (in Chinese)

Pu X C, Wang Z J, Wang C, et al. Mechanical properties of super high-strength and high performance concrete. Journal of Building Structures, 2002, 23(6): 49–55 (in Chinese)

Wang Y W. Choice and preparation for kilometer compressive material (KCM) and study on its configuration and mechanical properties. Dissertation for the Doctoral Degree. Chongqing: Chongqing University, 2004 (in Chinese)

Li Y J. Study and application of high performance concrete containing ultra-fine fly ash designed for railway prestressed bridge girders. Dissertation for the Doctoral Degree. Changsha: Central South University, 2005 (in Chinese)

Guo Z H. Strength and deformation of concrete (test foundation and constitutive relationship). Beijing: Tsinghua University Press, China, 1997 (in Chinese)

Xu L Y. Experimental research on stress-strain curves of high performance concrete and compact reinforced high performance concrete in tension. Dissertation for the Doctoral Degree. Wuhan: Wuhan University of Hydraulic and Electric Engineering, 1998 (in Chinese)

Yang X. The complete stress-strain curves of high strength concrete under direct tension. Journal of Shanghai Institute of railway technology, 1995, 16(4):1–5 (in Chinese)

Zhou Z Q, Li X, Shen Z L. Experimental investigation of tensile behavior of ordinary concrete. China Journal of Highway and Transport, 1994, 7(2): 15–19 (in Chinese)

Cai S H, Zuo H X. Cracking resistance of high-strength concrete. China Civil Engineering Journal, 1992, 25(2): 23–31 (in Chinese)

Hu H T. Ye Z M. A test research into stress-strain curves of highstrength concrete mixed with mineral powder of ash. Journal of Qingdao Institute of Architecture and Engineering, 1996, 17(1): 1–9 (in Chinese)

China Academy of Building Research. Study Report of Reinforced Concrete Structure, Vol. 3 (Strength and Deformation of Highstrength concrete confined by steel nets). Beijing: China Building Industry Press, 1994, 424–432 (in Chinese)

Yin J, Zhou S Q, Xie Y J. Study of ultimate tensile strain of high strength and high performance concrete. Industrial Construction, 2000, 30(7): 47–49

Zang Y L, Li J K, Zhou O K. Experimental investigation of concrete homogenous tensile strength. Concrete, 2006, 28(2): 39–41 (in Chinese)

Sargin M. Stress-stain relationship for concrete and the analysis of the structural concrete sections. Study No. 4, Solid Mechanical Division. University of Waterloo, Ontario, 1971, 167: 171

Xu J F. Experimental research on stress-strain curves of highstrength concrete. Dissertation for the Doctoral Degree. Beijing: Tsinghua University, 1986 (in Chinese)

Ding F X. Yu Z W. Strength criterion for plain concrete under multiaxial stress based on damage Poisson’s ratio. Acta Mechanica Solida Sinica, 2006, 19(4): 307–316

Hibbitt K. Sorenson. ABAQUS version 6.4: theory manual, users’ manual, verification manual and example problems manual. Hibbitt, Karlson, Sorenson Inc. USA, 2003

Wang Y Y, Zhang S M, Yang H. Basic behavior of high-strength concrete-filled steel tubular short columns under axial compressive loading. In: Proceedings of the 9th International Symposium on Structures Engineering for Young Experts. Beijing: Science Press, 2006, 1436–1442