Rapidly Detection for Moso Bamboo Density under Different Moisture ConditionBased on X-CT Technology
WANG Qing-ping1, 2, LIU Xing-e2, ZHANG Gui-lan1, YANG Shu-min2*, TIAN Gen-lin2, SHANG Li-li2, MA Jian-feng2
1. College of Material Science and Art Design, Inner Mongolia Agricultural University, Huhhot 010018, China 2. International Center for Bamboo and Rattan, Bamboo and Rattan Science and Technology Laboratory, Beijing 100102,China
Abstract:Density, which is closely relate with many physical and mechanical properties of bamboo, is one of the important indicators of bamboo material properties. Moreover, because of existing different moisture gradients in bamboo, the measured results of the density are different. Based on X-ray computed tomography (X-CT) technology, the divergent degree of the CT values of 7 different aged Moso bamboo was compared under oven-dried, air-dried and water-saturated conditions. Except for the 4-year-old and 10-year-old Moso bamboo, the CT values of other aged bamboos have minor differences with each other; the models for the measured CT values and the corresponding densities of Moso bamboo were respectively fitted under oven-dried, air-dried and water-saturated conditions. Meanwhile, the model was also fitted under different moisture gradients, which was composed by the measured CT values and the corresponding densities of Moso bamboo. Then the relations between the CT values andthe densitiesof 7 different aged Moso bamboo were systematically analyzed under single moisture content and three moisture gradients;the CT values were fitted under oven-dried condition, of which the radial positions are relative to the outer of Moso bamboo. According to the relation between the CT value and the density, the fitting curves explain the reasons for the radial density variations of 7 different aged Moso bamboo. Results show that the relations, which are fitted by the measured densities and the corresponding CT values of 7 different aged Moso bamboo under oven-dried, air-dried and water-saturated conditions, are good linear and the slopes of those models are approximate; the relation of the densities with the CT values for Moso bamboo is linear under different moisture gradients, moreover, which is rarely affected by moisture. The regression equation is: D=0.001 H+1.003 2, R2=0.968 3(D is the density,H is the CT value) and the determination coefficient of the validation model is: R2=0.974 3; there is no obvious variation between the densities of the inner and the outer, but not in middle part to 7 different aged Moso bamboo under oven-dried condition. To realize rapid detection on the densities of Moso bamboo under different moisture content, these results provide technical support and data reference. At the same time, X-ray computed tomography (X-CT) technology also puts forward a new feasible way for the further studies of bamboo material properties and structure.
王卿平1,2,刘杏娥2,张桂兰1,杨淑敏2*,田根林2,尚莉莉2,马建锋2. 基于X射线CT技术快速检测不同含水率状态下的毛竹密度[J]. 光谱学与光谱分析, 2016, 36(06): 1899-1903.
WANG Qing-ping1, 2, LIU Xing-e2, ZHANG Gui-lan1, YANG Shu-min2*, TIAN Gen-lin2, SHANG Li-li2, MA Jian-feng2. Rapidly Detection for Moso Bamboo Density under Different Moisture ConditionBased on X-CT Technology. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2016, 36(06): 1899-1903.
[1] YIN Si-ci(尹思慈). Wood Science(木材学). Beijing: China Forestry Publishing House(北京: 中国林业出版社), 1996. [2] Lindgren L O. Wood Science and Technology, 1991, 25(5): 341. [3] Lindgren L O. Wood Science and Technology, 1991, 25(6): 425. [4] Huang P, Chang W S, Ansell M P, et al. Construction and Building Materials, 2015, 93: 197. [5] SHAN Hai-bin, LIU Xing-e, YANG Shu-min, et al(单海斌, 刘杏娥, 杨淑敏, 等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2014, 34(12): 3380. [6] He X, Qi D. European Journal of Wood and Wood Products, 2013, 71(5): 647. [7] Lindgren L O. Holzals Rohund Werkstoff, 1992, 50(7/8): 295. [8] Wang X Q, Li X Z, Ren H Q. Journal of Tropical Forest Science, 2010, 22(1): 88. [9] Kobayashi T, Shimano K, Muraoka H. Plant Species Biology, 2004, 19(1): 33. [10] YANG Qing-ping, CHEN Shuang-lin, GUO Zi-wu,et al(杨清平, 陈双林, 郭子武, 等). Forest Research(林业科学研究), 2012, 25(6): 784. [11] Kleinhenz V, Milne J, Walsh K B, et al. Journal of Bamboo and Rattan, 2003, 2(3): 281. [12] Zhang Q, Shamsi I H, Wang J, et al. Environmental Science and Pollution Research, 2013, 20(7): 4681. [13] Zhang Y, Saito Y, Lin J, et al. Experimental &Applied Acarology, 2003, 31(1-2): 59. [14] WANG Zhao-hui, JIANG Ze-hui, RUAN Xi-gen(王朝晖, 江泽慧, 阮锡根). Scientia Silvae Sinicae(林业科学), 2004, 40(3): 111.
