期刊
SCIENCE AND ENGINEERING OF COMPOSITE MATERIALS
卷 28, 期 1, 页码 363-371出版社
WALTER DE GRUYTER GMBH
DOI: 10.1515/SECM-2021-0034
关键词
bamboo scrimber; fractional derivative; tensile creep; viscoelasticity constitutive model
This study focused on the tensile creep characteristics of bamboo scrimber, and found that the combined fractional and Maxwell model provided higher accuracy in fitting the relationship between strain and time, making it more suitable for engineering applications.
Bamboo scrimber is a new natural fiber-reinforced composite material in modern industry. In this paper, the tensile creep characteristics of this material were chosen as the object of the study. First, axial tensile fracture experiments were conducted on different test specimens to determine the corresponding strength data. Then six sets of standard tensile creep experiments were conducted under different given stress levels. Finally, the Maxwell constitutive model was applied in fitting the relationship between strain and time. The results showed that the traditional Maxwell viscoelasticity constitutive model will result in some errors in the fitting results, while the combined fractional and Maxwell model can provide much higher accuracy in this study, thus it is more suitable for engineering applications. This paper provides a solid foundation for a better understanding of the mechanism of the bamboo scrimber creep behavior.
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