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- Title
Crack Growth Analysis for Rice Husk Reinforced Polypropylene Composite Using Equivalent Initial Flaw Size Concept.
- Authors
Mohamed, Sity Ainy Nor; Zainudin, Edi Syams; Sapuan, S. M.; Deros, Mohd Azaman Md.; Arifin, Ahmad Mubarak Tajul
- Abstract
Crack growth that takes place in natural fibre polymer composite formations is dependent on several factors, whereby primary crack size is a key aspect that influences uncertainty of the crack growth. The nucleation stage is strongly affected by the fracture collapse of structures, unavoidably affecting the accuracy of the estimation of total fatigue life. In this research, fatigue crack was examined using rice husk/polypropylene composite specimens across stress loads ranging from 80 to 90% for ultimate tensile strength at the stress ratios R=0.1, 0.3, and 0.5. Consequently, the propagation rate of the crack was dependent on the stress ratio. Crack resistance showed a drop in the propagation rate of the crack rate with an increase in the R value. This effect produced more fibres/matrix fracture at high stress ratio, in comparison to the low stress ratio, which was verified further through scanning electron microscopy. Moreover, the S-N curve method was proposed, as it facilitates the deterministic total fatigue life discovery in a highly favorable manner via equivalent crack size approach. A strong consensus was observed between the model of prediction and the outcomes of the experiment.
- Subjects
FRACTURE mechanics; RICE hulls; STRUCTURAL failures; CRACK propagation (Fracture mechanics); TENSILE strength; FATIGUE life
- Publication
BioResources, 2021, Vol 16, Issue 3, p4963
- ISSN
1930-2126
- Publication type
Article