参考文献/References:
[1]孙成志,尹思慈.十种国产针叶树材管胞次生壁纤丝角的测定[J].林业科学,1980,16(4)302303.[2]Senft J F, Bendtsen B A. Measuring microfibrillar angles using light microscopy[J].Wood and Fiber Sci,1985,17(4)564567.[3]Batchelor W J, Conn A B, Parker I H. Measuring the fibril angle of fibres using confocal microscopy[J]. Appita, 1997,50 (5) 377380 .[4]Huang CL, Kutscha N P,Leaf G J, et al. Comparison of microfibril angle measurement techniques[A].Butterfield B G, Microfibril Angle in Wood[C]. Westport, New Zealand Printed by the University of Canterbury, 1997. 177204.[5]尹思慈,阮锡根,孙成志,等. 应用偏光显微镜测定马尾松木材次生壁的微纤丝角[J].林业科学,1986,22(2)209212.[6]方文彬. 用碘结晶法测量针叶树材的微纤丝角[J].中南林学院学报,1995,15(2)151154.[7]Anagnost S E,Mark R E, Hanna R B. Utilization of softrot cavity orientation for the determination of microfibril angle. Part1[J].Wood Fiber Sci,2000,32(1),8187.[8]Brandstrom J, Daniel G,Nilsson T. Use of soft rot cavities to determine microfibril angles in wood; Advantages, Disadvantages and Possibilities[J]. Holzforschung,2002,56(5)468472.[9]Khalili S, Nilsson T, Daniel G .The use of soft rot fungi for determing the microfibril orientation in the S2 layer of pine tracheids[J].Holz RohWerkst, 2001,58(6) 439 447.[10]阮锡根,尹思慈,孙成志.应用X射线衍射(002) 衍射弧法测定木材纤维次生壁的微纤丝角[J].林业科学,1982,18(1) 6470.[11]Andersson S, Serimma R, Torkkeli M, et al. microfibril angle of norway spruce [Picea abies(L.) Karst.] compression woodcomparison of measuring techniques[J].The Japan Wood Research Society, 2000, 46 343349.[12]Saren M, Serimma R, Andersson S, et al. Effect of growth rate on mean microfibril angle and crosssection shape of tracheids of norway spruce[J].Trees,2004,18354362.[13]Xu P, Lloyd D, Walker J, et al.Effects of density and microfibril angle of lowstiffness wood in radiate pine butt logs[J]. Holzforchung, 2004, 58 673 677.[14]王志玲,王正,王元秀,矫强.现代近红外光谱技术人造板性能无损检测的新方法[J].世界林业研究,2004,17(6)2224.[15]Laurence R S, Evans R, Matheson A C. Estimation of Pinus radiate D.Don clear wood properties by nearinfrared spectroscopy[J].J Wood Sci,2002,48132137.[16]邱肇荣,刘君良,张士诚. 长白落叶松木材管胞微纤丝角的变异研究[J].吉林林学院学报,1996,12(3)152155.[17]刘一星,吴玉章,李坚. 火炬松木材材性变异规律[J].东北林业大学学报,1999,27(5)2934.[18]Wang H H , Drummond J G , Reath S M , et al . An improved fibril angle measurement method for wood fibres [J] . Wood Sci and Technol,2001,34(6)493503.[19]肖绍琼,木乔英.云南杉木纤维胞壁纤丝角的研究[J]. 西南林学院学报,1992,12(2)221224.[20]费本华,江泽慧,阮锡根.银杏微纤丝角及其与生长轮密度相关模型的建立[J].木材工业,2000,14(3)1315.[21]费本华.X射线衍射法测定铜钱树木材微纤丝角及其变异的研究[J].安徽农业大学学报,1995,22(3)262265.[22]江泽慧, 费本华, 长江滩地不同品系杨树木材纤维形态、微纤丝角和结晶度变异研究[J].安徽农学院学报, 1992,19(4) 255 262.[23]任海青.三角枫木材细胞组织比量及微纤丝角径向变异研究[J].安徽农业大学学报,1997,24(1)1417.[24]杨文忠,方升佐.杨树无性系微纤丝角的时空变异变异模式[J]. 东北林业大学学报,2004,32(1)2528.[25]李火根,黄敏仁,阮锡根.美洲黑杨新无性系木材细胞次生壁S2层微纤丝角株内变异的初步研究[J]. 西北林学院学报,1997,12(1)6165.[26]江泽慧,邹惠渝,阮锡根,等.应用X射线衍射技术研究竹材超微结构I.竹材纤丝角[J].林业科学,2000,36(3)122125.[27]Stuart S, Evans R. Xray diffraction estimation of the microfibril angle variation in Eucalypt wood[J ]. Appita, 1995, 48 (3) 197 200.[28]Yamamoto H, Okuyama T, Yashida M. Method of determining the mean microfibril angle of wood over a wide range by the improved Cave’s method[J]. J Wood Res Soc, 1993, 39(4) 375 381.[29]Laurence R S, Evans R. Estimation of microfibril angle of increment cores by near infrared spectroscopy[J]. IAWA, 2002,23(2)225234.[30]Yang J L, Evans R. Prediction of MOE of eucalypt wood from microfibril angle and density[J].Holz als Rohund Werkstoff,2003,61449452.[31]陆文达. 近红外光谱(NIR)应用于密度和刚度变异宽广的多样性树种木材[J]. 国际木业,2002,32(12).3232.[32]Cave I D. Theory of Xray measurement of microfibril angle in wood[J]. Wood Sci and Technol,1997,31(4)225234.[33]江泽慧, 李坚, 尹思慈,等.中国木材科学的近期发展[J]. 四川农业大学学报,1998, 16(1)1 43.
相似文献/References:
[1]黄艳辉,赵荣军通讯作者赵荣军。,费本华.杉木木材微纤丝角变异规律的研究[J].西北林学院学报,2007,22(01):119.
HUANG Yanhui,ZHAO Rongjun,FEI Benhua.Variation Patterns of Microfibril Angle for Chinese Fir Wood[J].JOURNAL OF NORTHWEST FORESTRY UNIVERSITY,2007,22(04):119.
[2]柳瑞武,李春友,孟平,等.树木形态结构快速精确测定方法初探[J].西北林学院学报,2011,26(01):171.
[3]高京草,王长柱,王进国,等.枣树抗寒性测定方法研究[J].西北林学院学报,2011,26(05):72.
[4]郭毅涵,刘杏娥,杨淑敏,等. 3种竹材微纤丝角变异规律研究[J].西北林学院学报,2016,31(5):267.[doi:10.3969/j.issn.1001-7461.2016.05.43]
GUO Yi-han,LIU Xing-e,YANG Shu-min,et al. Variation of Microfibril Angle in Three Bamboo Species[J].JOURNAL OF NORTHWEST FORESTRY UNIVERSITY,2016,31(04):267.[doi:10.3969/j.issn.1001-7461.2016.05.43]
[5]李乐,钟迪,贾宝军,等. 蒙古栎叶面积的数字图像法测定[J].西北林学院学报,2016,31(6):96.[doi:10.3969/j.issn.1001-7461.2016.06.17]
LI Le,ZHONG Di,JIA Bao-jun,et al. Measurement of The Leaf Area of Quercus mongolica by Using Digital Image[J].JOURNAL OF NORTHWEST FORESTRY UNIVERSITY,2016,31(04):96.[doi:10.3969/j.issn.1001-7461.2016.06.17]
[6]杨欣,刘杏娥,杨淑敏*,等. 4种竹材微纤丝角变异及其对抗弯性质的影响[J].西北林学院学报,2021,36(2):193.[doi:10.3969/j.issn.1001-7461.2021.02.28]
YANG Xin,LIU Xing-e,YANG Shu-min*,et al. Variation of Microfibril Angle of Four Bamboo Species and Its Effect on Bending Properties[J].JOURNAL OF NORTHWEST FORESTRY UNIVERSITY,2021,36(04):193.[doi:10.3969/j.issn.1001-7461.2021.02.28]