Study of variation in natural frequencies of bio-composites due to structural damage

IF 1.3 Q2 MATERIALS SCIENCE, PAPER & WOOD International Wood Products Journal Pub Date : 2020-06-23 DOI:10.1080/20426445.2020.1780383
A. J. Shah, T. Pandya, Jason Street
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Abstract

ABSTRACT The purpose here is to study the variation in the natural frequency of a material due to damage. Also, compare the shift in Natural Frequency that of a SYP-SP (Sweet Potato) bio-composite to a commercial SYP composite. Additionally, the motivation behind the study is to eventually provide biodegradable materials, as petroleum-based products being a finite resource and having more potential to harm the environment. The researcher obtained the Natural Frequencies by Experimental modal analysis using a cantilever beam vibration technique. The shift for the first three natural frequencies for damage induced SYP-SP composite was 10%, 8.6%, and 9.5% and for SYP-Commercial composite was 7.95%, 0.7%, and 0.9% respectively. The undamaged specimens of SYP-SP bio-composite and that of a commercial SYP composite showed behaviour almost on similar lines. Thus, stating the potential use of SYP-SP bio-composite for commercial applications like wood flooring, fencing, and other related applications.
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生物复合材料结构损伤引起固有频率变化的研究
摘要本文的目的是研究材料因损伤而产生的固有频率变化。此外,将SYP-SP(红薯)生物复合物与商业SYP复合物的固有频率变化进行比较。此外,这项研究背后的动机是最终提供可生物降解的材料,因为石油产品是一种有限的资源,更有可能危害环境。研究人员利用悬臂梁振动技术通过实验模态分析获得了固有频率。损伤诱导的SYP-SP复合材料的前三个固有频率的偏移分别为10%、8.6%和9.5%,SYP-Commercial复合材料的第一个固有频率偏移分别为7.95%、0.7%和0.9%。SYP-SP生物复合材料和商业SYP复合材料的未损坏样品表现出几乎相似的行为。因此,说明SYP-SP生物复合材料在商业应用中的潜在用途,如木地板、围栏和其他相关应用。
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来源期刊
International Wood Products Journal
International Wood Products Journal MATERIALS SCIENCE, PAPER & WOOD-
CiteScore
2.40
自引率
0.00%
发文量
27
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