Fundamental Solutions for a Fluid-Saturated Poroelastic Infinite Space of Transversely Isotropic Permeability
スポンサーリンク
概要
- 論文の詳細を見る
The fundamental solutions were obtained for a fluid-saturated, elastically isotropic, porous, infinite solid with transversely isotropic permeability under an instantaneous fluid point source and instantaneous point forces acting in mutually orthogonal directions, by superposing the dislocation line segments. These solutions include those for both porous solids of zero permeability in one direction and isotropic permeability as limiting cases. These solutions are intended to be used to derive the integral equations for a plane crack of arbitrary shape;these equations in turn will be implemented in a hydraulic fracturing simulator for the gas/oil production.
- 一般社団法人日本機械学会の論文
- 2000-01-15
著者
-
GANBE Tsuyoshi
Graduate School of Engineering, Iwate University
-
KURASHIGE Michio
Department of Mechanical Engineering, Iwate University
-
Ganbe T
Iwate Univ. Iwate Jpn
-
Ganbe Tsuyoshi
Graduate School Of Engineering Iwate University
-
Kurashige Michio
Department Of Mecanical Engineering Ii Faculty Of Engineering Tohoku University
関連論文
- Integral Equations for a Planar Crack Subjected to Arbitrary Loadings in a Fluid-Filled, Poroelastic, Infinite Solid
- Fundamental Solutions for a Fluid-Saturated Poroelastic Infinite Space of Transversely Isotropic Permeability
- Integral Equations for a 3D Crack in a Fluid-Saturated Poroelastic Infinite Space of Transversely Isotropic Permeability : Case of Anisotropy Axis Perpendicular to Crack Face
- Active Cooling and Thermal Stress Reduction by Use of Porous Materials : Hollow Cylinder Model
- Fluid Injection into a Dry Poro-Elastic Layer : Its Compaction and Fluid-Front Moving
- Computer Simulation to Evaluate Effective Elastic Moduli of Sintered Spherical Particles : Examination of Simulation Technique by 2D Model
- Bifurcation of a Circular Hollow Cylinder of Ideal Fiber-Reinforced Materials : For a Case of Axial Compression and Axial Reinforcement : Series A : Solid-Mechanics, Strength of Materials
- Bifurcation of an Elastic Stab having Inclined Anisotropy-Axes under Axial Loads
- Bifurcation of an Obliquely Fiber-Reinforced Elastic Slab under Axial Loads
- Instability of an Ideally Fiber-reinforced Elastic Strip under Tension
- Plane Bifurcation of a Fiber-Reinforced Body with a Singular a- or n-Curve
- Instability of an Axially Fiber-Reinforced Elastic Slab under Axial Loads
- Tensile Tests of a Fluid-Filled Poroelastic Core Sample : Theoretical Consideration
- Effects of Cubic Container's Wall or Floor on Random Packing Structures of Spherical Particles
- Compressive Strength of a Laminated Fiber-Reinforced Material
- Finite Plane Deformations of an Ideal Fiber-Reinforced Material : 4th Report, Three-Point Bending of a Stepped Beam
- Instability of a Transversely Isotropic Elastic Strip under Tension
- Thermal Stresses of a Fluid-Saturated Poroelastic Hollow Cylinder
- Finite Plane Deformations of an Ideal Fiber-Reinforced Material : 5th Report, Large Deformations of a Stepped Beam under Pressure : Series A : Solid-Mechanics, Strength of Materials
- Anisotropy in Packing Structure and Elasticity of Sintered Spherical Particles
- Finite Plane Deformations of an Ideal Cross-Ply Fiber-Reinforced Material : 1st Report, Basic Equations and Three-Point Bending of a Cracked Beam : Series A : Solid-Mechanics, Strength of Materials
- Evaluation of Macroscopic Elastic Properties of Porous Compacts Prepared by Powder Pressure Sintering for Biomedical Implant
- Macroscopic Conductivity of Uniaxially Compacted, Sintered Balloon Aggregates