Determination of Splitting Force in Process of Fracture Splitting Connecting Rod
p.97
p.97
Dislocation Distribution Function of the Surfaces of Mode III Dynamic Crack Subjected to Unit-Step Loads and Moving Increasing Loads
p.101
p.101
Creep Crack Interaction of High Temperature Structure with Multiple Cracks
p.105
p.105
Initial Damage Detection Based on Elastic Modulus Randomness
p.109
p.109
The Effect of the Property of Non-Linear Viscosity on the Interfacial Debonding of Particulate-Reinforced Polymers
p.113
p.113
Experimental Study on Mechanism of Crack Coalescence between Two Pre-Existing Flaws under Dynamic Loading
p.117
p.117
Percolation-Relaxation Model with Critical Damage for Describing the Dynamic Tensile Spall of Ductile Metals
p.121
p.121
Crack Propagation under Compressive Stress Influenced by Crack Face Asperity
p.125
p.125
Real-Time Monitoring and Simulating the Load Effects of Smart” CFRP- Strengthened RC Beams
p.129
p.129
The Effect of the Property of Non-Linear Viscosity on the Interfacial Debonding of Particulate-Reinforced Polymers
Abstract:
The debonding of a rigid particle embedded in an infinite non-linear viscoelastic material is investigated in this paper. Under sphere-symmetric deformation, a non-linear equilibrium equation expressed by velocity of a particle in the viscoelastic matrix material is derived. The strain rate is obtained by solving non-linear equation in terms of iterative method. According to the energy criterion, the critical instant of the interfacial debongding is calculated. Numerical results show that the influence of non-linear viscosity on the interfacial debonding is significant.
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Info:
Periodical:
Key Engineering Materials (Volumes 324-325)
Pages:
113-116
Citation:
Online since:
November 2006
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