• 综合性科技类中文核心期刊
    • 中国科技论文统计源期刊
    • 中国科学引文数据库来源期刊
    • 中国学术期刊文摘数据库(核心版)来源期刊
    • 中国学术期刊综合评价数据库来源期刊
Advance Search
MA Lian-hua, YANG Qing-sheng. Study on Effective Properties of Elastic Media Containing Fluid Inclusions[J]. Journal of Beijing University of Technology, 2011, 37(8): 1136-1142. DOI: 10.3969/j.issn.0254-0037.2011.08.003
Citation: MA Lian-hua, YANG Qing-sheng. Study on Effective Properties of Elastic Media Containing Fluid Inclusions[J]. Journal of Beijing University of Technology, 2011, 37(8): 1136-1142. DOI: 10.3969/j.issn.0254-0037.2011.08.003
shu

Study on Effective Properties of Elastic Media Containing Fluid Inclusions

  • College of Mechanical Engineering and Applied Electronics Technology, Beijing University of Technology, Beijing 100124, China

More Information
  • Received Date: September 26, 2009
  • Available Online: November 18, 2022
    Graphical Abstract
    • Abstract
  • To examine the effects of fluid pressure on effective properties of solids with closed pores,a new micromechanical model has been developed to investigate the coupling effect between the macroscopic deformation and the pore pressure.In the proposed micromechanical model,the internal pressure is generated by applying eigenstrain in the domain occupied by the fluid phase.The effective properties have been obtained with the use of Eshelby-Mori-Tanaka equivalent inclusion method.Analytical results are verified against those from finite element solutions and a good agreement is achieved.The results show the overall effective bulk modulus depends on the property,the volume fraction and the internal pressure of fluid inclusions.The fluid pressure can strengthen the overall effective bulk modulus,but it has no contribution to the overall effective shear modulus.
    • FullText(HTML)
    • References (19)
  • [1]
    GASSMANN F.Elasticity of porous media:uber die elastizitat poroser medien[J].Vierteljahrsschrift der NaturforschendenGesselschaft,1951,96(1):1-23.
    [2]
    BESKOS D E.Dynamics of saturated rockⅠ:equations of motion[J].Engrg Mech ASCE,1989,115:982-995.
    [3]
    O’CONNELL R J,BUDIANSKY B.Viscoelastic properties of fluid-saturated cracked solids[J].Geophys Res,1977,82(B36):5719-5736.
    [4]
    ENDRES A L,KNIGHTT R J.Incorporating pore geometry and fluid pressure communication into modeling the elasticbehavior of porous rocks[J].Geophysics,1997,62(1):106-117.
    [5]
    THOMSEN L.Elastic anisotropy due to aligned cracks in porous rocks[J].Geopys Prosp,1995,43(6):805-829.
    [6]
    XU S,WHITE R E.A new velocity model for clay-sand mixtures[J].Geopys Prosp,1995,43(1):91-118.
    [7]
    XU S,WHITE R E.A physical model for shear-wave velocity prediction[J].Geophs Prosp,1996,44(4):687-717.
    [8]
    YANG Qing-sheng,LI Chun-jiang.Evolution of properties in hydration of cements—a numerical study[J].MechanicsResearch Communications,2006,33(5):717-727.
    [9]
    XIA Kai-ming,ZHANG Zhi-jun.Three-dimensional finite/infinite elements analysis of fluid flow in porous media[J].Applied Mathematical Modeling,2006,30(9):904-919.
    [10]
    陈建康,黄筑平,刘熠.刚性微粒填充高聚物的宏观本构关系[J].高分子学报,1998(6):60-63.CHEN Jian-kang,HUANG Zhu-ping,LIU Yi.The macroscopic constitutive relation of particulate reinforced polymer[J].Acta Polymerica Sinica,1998(6):60-63.(in Chinese)
    [11]
    CHEN J K,ZHU J,WANG J,et al.The properties of the Poisson’s ratio of microcellular foams with low porosity:non-stationary,negative value,and singularity[J].Mechanics of Time-Dependent Materials,2006,10(4):315-330.
    [12]
    ZHANG Ming-hua,JIANG Min-qiang,CHEN Jian-kang.Variation of flexural strength of cement mortar attacked by sulfateions[J].Engineering Fracture Mechanics,2008,75(17):4948-4957.
    [13]
    DORMIEUX L,MOLINARI A,KONDO D.Micromechanical approach to the behavior of poroelastic materials[J].Journalof the Mechanics and Physics of Solids,2002,50(10):2203-2231.
    [14]
    KREHER W.Residual stresses and stored elastic energy of composites and polycrystals[J].J Mech Phys Solids,1990,38(1):115-128.
    [15]
    ZHANG Wei-xu,XU Zhi-min,WANG Tie-jun,et al.Effect of inner gas pressure on the elastoplastic behavior of porousmaterials:a second-order moment micromechanics model[J].International Journal of Plasticity,2009,25(7):1231-1252.
    [16]
    秦庆华,杨庆生.非均匀材料多场耦合行为的宏细观理论[M].北京:高等教育出版社,2006:16-17.
    [17]
    杨庆生,马连华.含流体夹杂复合材料的细观力学[C]∥第十五届全国复合材料学术会议论文集.北京:国防工业出版社,2008:216-220.YANG Qing-sheng,MA Lian-hua.Micromechanics of composites with fluid inclusions[C]∥Proceedings of 15th NationalConference on Composite Materials.Beijing:National Defense Industry Press,2008:216-220.(in Chinese)
    [18]
    刘协权,倪新华,路晓波.颗粒增强镍基合金热膨胀系数预报[J].稀有金属材料与工程,2005,34(增刊1):273-274.LIU Xie-quan,NI Xin-hua,LU Xiao-bo.Thermal expansion coefficient prediction for Ni base alloy ceramic compositecoating[J].Rare Metal Materials and Engineering,2005,34(Supp1):273-274.(in Chinese)
    [19]
    XU S Y.Modelling the effect of fluid communication on velocities in anisotropic porous rocks[J].International Journal ofSolids and Structures,1998,35(34-35):4685-4707.
    • Related Articles

Catalog

    Get Citation
    PDF
    XML
    Article views (14) PDF downloads (6) Cited by()
    Turn off MathJax
    Article Contents
    Abstract
    References

    Copyright © Editorial Department of Journal of Beijing University of Technology京公安备11019343018-20001

    Address:No.100 Pingleyuan, Chaoyang District, Beijing 100124,ChinaE-mail:xuebao_bjut@vip.163.com

    Supported by: Beijing Renhe Information Technology Co., Ltd. Baidu Analytics

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return