Detection of Internal Holes in Swietenia mahagoni Disks Using a Stress Wave Device

Q4 Agricultural and Biological Sciences Taiwan Journal of Forest Science Pub Date : 2012-06-01 DOI:10.7075/TJFS.201206.0191
Fu-Lan Hsu, Chin-Mei Lee, G. Hwang, Yan-San Huang
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Abstract

The objectives of this study were to evaluate the feasibility of detecting different sizes and positions of hidden defects in trees using a 2-sensor stress wave device. In addition, we attempted to evaluate the detection resolution of the stress wave method which was rarely discussed previously. Artificial holes were created in Swietenia mahagoni disks to imitate natural decay in a trunk and were then detected using stress waves. The results revealed that as the diameter of the artificial hole increased, the radial transit time of the disk increased. This increasing tendency was repeated in the relationship between the radial relative transit time (RT) and the relative hole diameter (RD) and was discordant in the tangential direction. The tangential RT was greatly influenced by the position of the hole: it was highly related to the RD when the hole was near the 2 sensors; while it is not related to the RD when the hole was far from the 2 sensors. We also found that detection resolutions of stress waves, defined as the diameter or area ratio when the radial velocity had decreased by 10%, were 0.29 and 8.4%, respectively. A tree was considered to be decayed when the relative velocity (RV) was < 0.9 and was considered hazardous when the RV was < 0.66 with a central hole. On the basis of the results obtained, it appears that a 2-sensor stress wave device allows the nondestructive inspection of the presence, size, and location of defects in trees and could be a cost-effective way to perform tree risk assessments.
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用应力波仪检测马氏圆盘内部孔
本研究的目的是评估使用双传感器应力波装置检测树木中不同大小和位置的隐藏缺陷的可行性。此外,我们还尝试对以往很少讨论的应力波法的检测分辨率进行评价。研究人员在马哈戈尼圆盘上制造了人工孔,以模仿树干的自然衰变,然后利用应力波进行检测。结果表明,随着人工孔直径的增大,圆盘的径向传递时间增大。径向相对穿越时间(RT)与相对孔直径(RD)之间的关系重复了这种增加趋势,但在切向上不一致。切向RT受孔位置的影响较大:当孔靠近2个传感器时,切向RT与RD高度相关;当孔距2个传感器较远时,与RD无关。我们还发现,应力波的检测分辨率(定义为径向速度下降10%时的直径或面积比)分别为0.29和8.4%。当相对速度(RV) < 0.9时为腐朽树,当RV < 0.66且有中心孔时为危险树。根据所获得的结果,似乎双传感器应力波设备可以无损检测树木中缺陷的存在、大小和位置,并且可能是进行树木风险评估的一种经济有效的方法。
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来源期刊
Taiwan Journal of Forest Science
Taiwan Journal of Forest Science Agricultural and Biological Sciences-Forestry
CiteScore
0.20
自引率
0.00%
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0
期刊介绍: The Taiwan Journal of Forest Science is an academic publication that welcomes contributions from around the world. The journal covers all aspects of forest research, both basic and applied, including Forest Biology and Ecology (tree breeding, silviculture, soils, etc.), Forest Management (watershed management, forest pests and diseases, forest fire, wildlife, recreation, etc.), Biotechnology, and Wood Science. Manuscripts acceptable to the journal include (1) research papers, (2) research notes, (3) review articles, and (4) monographs. A research note differs from a research paper in its scope which is less-comprehensive, yet it contains important information. In other words, a research note offers an innovative perspective or new discovery which is worthy of early disclosure.
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