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JOURNAL ARTICLE

Dynamic Finite Element Analyses of Two Compact Specimens

A. S. KobayashiYoshio UrabeS. MallA. F. EmeryW. J. Love

Year: 1978 Journal:   Journal of Engineering Materials and Technology Vol: 100 (4)Pages: 402-410   Publisher: American Society of Mechanical Engineers
DOI: 10.1115/1.3443511
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Abstract

A dynamic finite element code was used to compute the dynamic stress intensity factors and crack arrest stress intensity factors which are related to the crack run-arrest responses in longitudinal and transverse wedge-loaded compact specimens machined from A533B and 1018 steels, respectively. Measured crack velocities were used to prescribe crack motions in the longitudinal and transverse wedge-loaded compact specimens under fixed wedge displacements. The numerical analyses show that approximately 45 percent additional energy is input during the crack propagation phase in the former compact specimen while the rigid loading system in the latter results in essentially quasi-static crack extension.

Keywords:
Wedge (geometry) Finite element method Materials science Transverse plane Structural engineering Stress intensity factor Fracture mechanics Crack tip opening displacement Crack closure Mechanics Composite material Mathematics Geometry Physics Engineering

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Topics

Fatigue and fracture mechanics
Physical Sciences →  Engineering →  Mechanics of Materials
High-Velocity Impact and Material Behavior
Physical Sciences →  Materials Science →  Materials Chemistry
Mechanical stress and fatigue analysis
Physical Sciences →  Engineering →  Mechanics of Materials

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