Fracture Analysis on the Invasion Problem of the Porous Material

Li Qiang Tang; Yong Yang; Jing Yuan Yang

doi:10.4028/www.scientific.net/KEM.348-349.805

Paper Titles

Experimental Study on K-Dominance of Static Crack Tip in Functionally Gradient Materials
p.789

Failure Mechanism of Pure Nickel (Ni 200/201) under Thermo-Mechanical Loading
p.793

A Modified Technique for FEM Stress Analysis in Practical Problem
p.797

Onset of Microplasticity in Copper Crystal during Nanoindentation
p.801

Fracture Analysis on the Invasion Problem of the Porous Material
p.805

Modelling of Effect of ASR on Concrete Microstructure
p.809

Parametric Variational Principle for Solving Coupled Damage Problem
p.813

The Asymptotic Elastic-Viscoplastic Field at Mode I Dynamic Propagating Crack-Tip
p.817

Crack-Tip Stress Fields in FGMs under Anti-Plane Shear Impact Loading Using the Non-Local Theory
p.821

HomeKey Engineering MaterialsKey Engineering Materials Vols. 348-349Fracture Analysis on the Invasion Problem of the...

Fracture Analysis on the Invasion Problem of the Porous Material

Abstract:

The power law hardening constitutive relations for porous material were established by the material yield function. An idealized interface fracture model was established in which the indenter as rigidity was embedded in the porous material. Under the condition of plane strain, through the analysis of the singularity of the stress and strain and combining the motion and compatibility equations, the governing equation of the wedge-tip was deduced. With the help of numerical calculations and boundary conditions, the asymptotic solutions of the stress and strain near the wedge-tip were obtained. Finally, the influence of the material constants α (pressure sensitive coefficient), the angle of the indenter and the interfacial friction on the fracture of the porous material was discussed.