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全级配大体积混凝土的内时损伤本构模型 被引量:14

Endochronic damage constitutive model for fully-graded aggregate mass concrete
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摘要 复杂应力状态下全级配大骨料混凝土的强度和变形是混凝土坝体等大体积混凝土结构非线性有限元全过程仿真分析所必需的重要资料。本文结合内时理论和损伤力学理论,在大量试验数据的基础上,考虑尺寸效应和骨料湿筛效应对损伤变量的影响,建立了适用于不同骨料级配混凝土的内时损伤本构模型。该模型不仅摆脱了一般弹塑性中屈服面的概念,而且反映了不同骨料级配混凝土受力时不同的损伤演变规律。应用本文建议的模型,计算了全级配混凝土以及湿筛二级配混凝土在不同应力状态下的应力-应变关系,所得结果与试验数据符合的较好,可作为拱坝及其他大骨料混凝土结构设计的依据。 The behavior of deformation and strength of fully-graded stress state is the basis of nonlinear analysis and design for mass experimental data the endochronic theory is combined with damage aggregate concrete under complicated concrete structures. On the basis of mechanics to establish an endochronic damage constitutive model suitable for concrete structures with various gradations of aggregate. In the model the scale effect and influence of wet-screened aggregate are taken into account and the concept of yield surface is not necessary. It precisely expresses the evolution of damage in mass concretes with various gradations of aggregate. The proposed model is used to analyze the stress-strain relationships of fully-graded aggregate mass concrete and wet-screened concrete under various stress states. The calculation results are in good agreement with experimental data. It shows that this method is feasible for using as a guide for the design of arch dam and other mass concrete structures.
作者 宋玉普 王怀亮
机构地区 大连理工大学海岸和近海工程国家重点实验室
出处 《水利学报》 EI CSCD 北大核心 2006年第7期769-777,共9页 Journal of Hydraulic Engineering
基金 国家自然科学基金资助项目(50179002)
关键词 全级配混凝土 内时损伤 本构模型 fully-graded aggregate concrete endochronic damage constitutive model
分类号 TV642.2 [水利工程—水利水电工程]
  • 相关文献

参考文献15

  • 1Song Yu-pu,Zhao Guo-fan.Failure Criterion of the Mass Concrete under Combined Compression-Tension Stress States[A].Poceedings of 6th Inernational Offshore and Polar Engineering Conference[C].Los Angeles,USA,1996.229-303.
  • 2宋玉普,赵国藩.混凝土内时损伤本构模型[J].大连理工大学学报,1990,30(5):577-583. 被引量:7
  • 3Valanis K C.A theory of visco-plasticity without a yield surface[J].Archiwum Mechaniki Stosowane,1971,23 (3):517-551.
  • 4Bazant Z P,Shieh C L.Hysteretic fracture endochronic theory for concrete[J].ASCE,Journal of the Engineering Mechanics Division,1980,106(5):929-950.
  • 5Wu Han-Chin,Nanakorn C,Komarakul.A constitutive framework of plastically deformed damaged continuum and a formulation using the endochronic concept[J].International Journal of Solids and Structures,1999,36(33):5057-5087.
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  • 7朱尔玉,戴会超,董德禄.全级配混凝土在不连续点处的应力和变形关系[J].水利学报,2004,35(4):105-108. 被引量:6
  • 8朱尔玉,戴会超,董德禄.全级配混凝土在破坏时的应力和变形关系[J].水利学报,2004,35(5):89-93. 被引量:3
  • 9宋玉普.多种混凝土材料的本构关系和破坏准则[M].北京:水利水电出版社,2004.
  • 10Mazars J.A description of micro-and macro-scale damage of concrete structures[J].Engineering Fracture Mechanics,1986,25(5/6):729-737.

二级参考文献13

  • 1宋玉普,1988年
  • 2Rosenthal I, Clucklich J. Strength of Plain Concrete under Biaxial Stress [ J]. ACI Journal. 1970. 11:80 - 85.
  • 3Tony C Y,et al.Stress-strain response and fracture of concrete in uniaxial and biaxial compression [J] .ACI Journal,1972,(5):291 - 295.
  • 4David Darwin,et al.Nonlinear biaxial stress-strain law for concrete [J].ASCE,1977,103 (2):229 - 241.
  • 5Rosenthal I,Clucklich J.Strength of Plain Concrete under Biaxial Stress [J].ACI Journal,1970,(8):903 - 914.
  • 6Helmut Kupfer,et al.Behavior of concrete under biaxial stressesy [J].ACI Journal,1969,(8):852 - 866.
  • 7杨成球.二滩水电站全级配混凝土力学性能试验研究[J].水电站设计,1988,(4):35-44.
  • 8TasujiME FloydOSlate ArthurHNilson.双轴荷载下的混凝土应力-应变特性和断裂[A]..混凝土的强度和破坏译文集[C].北京:水利出版社,1982..
  • 9TasujiME.双轴荷载下的混凝土应力-应变特性和断裂[A],ArthurHNilson,FloydOSlate,混凝土的强度和破坏译文集[C].北京:水利出版社,1982..
  • 10徐积善 何淅淅.双轴拉压应力下混凝土的强度和变形.水利学报,1986,(6):59-64.

共引文献28

同被引文献120

引证文献14

二级引证文献58

水利学报
2006年 第7期

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