Rapid Determination of Physical and Chemical Properties of Two Kinds of Solid Floor Woods with XRD and FTIR Approaches
SU Ming-lei1, 2, LIU Cang-wei1, WANG Yu-rong1, 2*, SUN Hai-yan1, 2, REN Hai-qing1, Lü Bin1
1. Research Institute of Wood Industry,Chinese Academy of Forestry,Beijing 100091,China
2. Research Institute of Forestry New Technology,Chinese Academy of Forestry, Beijing 100091,China
Abstract:As a kind of natural and environmental paving materials, the solid wood flooring has become popular among people whose demand is increasing day by day. However, how to understand and detect wood properties quickly has been a urgent problem to be solved for material selection and quality inspection. So the profile densities of two kinds of import solid wood floorings made of Dipteryx odorata,Pometia spp. were quickly detected for physical properties and major chemical compositions by using rapid detection technology, X-ray scanning method and fourier transfoum infrared spectrum(FTIR). At the same time,the basic density of wood was measured by direct measurement and we also analyzed the correlation between the rapid detection density and the basic density of the two kinds floors. The profile density results showed that the density of Dipteryx odorata was higher than that of Pometia spp. and the heterogeneity of two kinds solid wood were great,correlation analysis data showed that there was a high correlation between the average of profile density and the basic density,the correlation coefficients of fitted parameters were 0.983 and 0.981,respectively. Besides the correlation coefficients of all materials was 0.991. The FTIR results showed that the extracts of Dipteryx odorata was higher than that of Pometia spp.,the lignin characteristic peaks intensity ratio of I1 507/I1 425,I1 507/I1 740 of Dipteryx odorata was higher thanthat of Pometia spp.,while the cellulose characteristic peaks intensity ratio of I1 507/I1 425,I1 507/I1 740 was less than that of Pometia spp.. The results showed that the lignin content of Dipteryx odorata was higher than that of Pometia spp.,while the cellulose content was less than that of Pometia spp. Thus,the X-ray scanning method can quickly detect the heterogeneity of the wood and also can predict the basic density. While the FTIR can quickly detect the relative content of wood chemical components,so the combination of the two methods can detect the physical and chemical properties of solid floor woods and other lumbers rapidly.
Key words:X-ray scanning;FTIR;Dipteryx odorata;Pometia spp.;physical and chemical properties
苏明垒,刘苍伟,王玉荣,孙海燕,任海青,吕 斌. 基于X射线剖面密度仪和FTIR快速测定两种实木地板材的物理化学性能[J]. 光谱学与光谱分析, 2018, 38(10): 3048-3052.
SU Ming-lei, LIU Cang-wei, WANG Yu-rong, SUN Hai-yan, REN Hai-qing, Lü Bin. Rapid Determination of Physical and Chemical Properties of Two Kinds of Solid Floor Woods with XRD and FTIR Approaches. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2018, 38(10): 3048-3052.
[1] National Standards of the People’s Republic of China(中华人民共和国国家标准). GB/T 15036.1—2009. Solid Wood Flooring(实木地板). Part 1:Technical Requirements(第1部分:技术要求).
[2] XU Feng(徐 峰). Wood Identification Map(木材鉴定图谱). Beijing:Chemical Industry Press(北京:化学工业出版社),2010. 9.
[3] WANG Yu-rong,REN Hai-qing(王玉荣,任海青). Journal of Anhui Agricultural University(安徽农业大学学报),2012,39(6):894.
[4] WANG Yu-rong,REN Hai-qing,ZHAO Rong-jun,et al(王玉荣,任海青,赵荣军,等). Wood Processing Machinery(木材加工机械),2012,23(5):9.
[5] National Standards of the People’s Republic of China(中华人民共和国国家标准). GB/T 1933—2009. Method for Determination of the Density of Wood(木材密度测定方法).
[6] Chen F,Jiang Z,Deng J,et al. Bioresources,2014,9(1):554.
[7] Belt T,Laine K,Hill C A S. Journal of Materials Science,2013,48(18):6426.
[8] Santos R B,Gomide J L,Hart P W. Tappi Journal,2015,14(1):9.
[9] Meng F D,Yu Y L,Zhang Y M,et al. Applied Surface Science,2016,371:383.
[10] Hao H,Chen T,Fan L,et al. Plos One,2013,8(10):e76660.
[11] Timar M C,Varodi A M,Gurǎu L. Wood Science and Technology,2016,50(1):135.
[12] LIU Yi-xing,ZHAO Guang-jie(刘一星,赵广杰). Materials of Wood Resources(木质资源材料学). Beijing:China Forestry Publishing House(北京:中国林业出版社),2004. 8.