|Table of Contents|

The research status quo and development prospects on timber heat treatment

Journal of Forestry Engineering[ISSN:2096-1359/CN:32-1862/S]

Issue:
2014 No.05
Page:
1-
Research Field:
专论综述
Publishing date:
2014-09-25

Info

Title:
The research status quo and development prospects on timber heat treatment
Author(s):
MA Lingfei LIU Rong FANG Qunet al
Keywords:
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PACS:
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DOI:
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Abstract:
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References:

[1]Bruno M, Helena E ,Pereira M. Wood modification by heat treatment: a review[J].Bio Resources,2009,4(1):370-404. [2]Xie Y J,Liu Y X,Sun Y X. Heattreated wood and its development in Europe[J].Journal of forestry research,2002,13(3):224-230. [3]Ishiguri F, Masubuchi N, Yokota S, et al. Changes in the physical and chemical properties of six Japanese softwoods caused by lengthy smokeheating treatment[J].J Wood Sci,2005,51:161-166. [4]Andreja K, Frederick A, Kamke E. Compression of wood under saturated steam,superheated steam, and transient conditions at 150℃, 160℃, and 170℃[J].Wood Sci Technol,2012,46:73-88. [5]Okuyama T, Gakkaishi M. Reduction of residual stresses in logs by direct heating method[J]. J Wood Sci,1987,33(11):837-843. [6]井上雅文,山本泰司.高频、微波加热在木材工业中的应用[J].电子情报通信学会技术研究报告(日),2003(16):35-40. [7]阳财喜,阎昊鹏,刘君良,等.桉树真空热处理材表面性能分析[J].林业科学,2010,46(10):130-134. [8]李涛,高华,蔡家斌,等.Plato热处理工艺对云杉木材顺纹抗压性能的影响[J].林业科技开发,2013,27(6):73-75. [9]涂登云,王明俊,顾炼百,等.超高温热处理对水曲柳板材尺寸稳定性的影响[J].南京林业大学学报:自然科学版,2010,34(3):113-116. [10]顾炼百,李涛,涂登云,等.超高温热处理实木地板的工艺及应用[J].木材工业,2007,21(3):4-7. [11]Cecilia B, William A, Escobara G. Densification of wood veneers combined with oil heat treatment. Part III: Cell wall mechanical properties determined by nanoindentation[J]. Bio Resources,2011,7(2):1525-1532. [12]井上雅文.压缩木研究现状与今后展望[J].人造板通讯,2002(9):3-10. [13]Fang C H, Alain C, Pierre B, et al. Densification of wood veneers combined with oil heat treatment. Part I: Dimensional stability[J]. Bio Resources,2011,6(1):373-385. [14]Fang C H, Alain C, Pierre B, et al. Densification of wood veneers combined with oil heat treatment. Part II: Hygroscopicity and mechanical properties[J]. Bio Resources,2012,7(1):25-935. [15]杜超,涂登云,劳奕旻,等.高温热处理杨木再压缩工艺试验[J].林业科技开发,2013,27(6):105-107. [16]Rodriguez G, Diouf P. Wood dowel bonding by high speed rotation welding application to two Canadian hardwood species[J].J Adhes Sci Technol,2010(24):1423-1436. [17]Boontra M, Pizzi A,GanneChedeville C,et al.Vibration welding of heattreated wood[J].J Adhes Sci Technol,2006,20(4):359-369. [18]徐炜玥,朱愿,欧阳亮,等.聚乙二醇和高温热处理复合改性对杨木吸水性的影响[J].林业机械与木工设备,2012,40(2):23-26. [19]Sudeshna S, Duygu K, Yaman B. Boreal forest conifer extracts: potential natural additives for acrylic polyurethane coatings for the protection of heattreated jack pine[J]. J Coat Technol Res,2013,10(1):109-122. [20]Hu C S, Jiang G F, Xiao M, et al. Effects of heat treatment on watersoluble extractives and color changes of merbau heartwood[J]. J Wood Sci,2012,58:465-469. [21]CIE简介[EB/OL].(2013-05-02)[2013-06-11].http://baike.baidu.com/view/475172.html. [22]吕建雄,黄荣凤,曹永建,等.蒸汽介质热处理对毛白杨木材颜色的影响[J].林业科技,2012,48(1):126-130. [23]Vasiliki K, Ioannis B, Vasileios V, et al. Response of colour and hygroscopic properties of Scots pine wood to thermal treatment[J]. Journal of Forestry Research,2013,24(3):571-575. [24]GonzálezPena M M,Hale M D C. Color in thermally modified wood of beech,Norway spruce and Scots pine: part 1. color evolution and color changes[J]. Holzforschung,2009,63(4):385-393. [25]GonzálezPena M M,Hale M D C. Color in thermally modified wood of beech,Norway spruce and Scots pine: part 2. property predictions from color changes[J]. Holzforschung,2009,63(4):394-401. [26]Zivkovic V, Prsa I. Dimensional stability of heat treated wood floorings[J]. Drvna industrija,2008,59(2):69-73. [27]Tariqur M, Nobuyuki H N S. Study of crystalline behavior of heattreated wood cellulose during treatments in water[J]. J Wood Sci,2005,51:42-47. [28]Tariqur M, Nobuyuki H N S. Changes of crystallinity in wood cellulose by heat treatment under dried and moist conditions[J].J Wood Sci,2000,46:431-436. [29]孙伟伦,李坚.高温热处理落叶松木材尺寸稳定性及结晶度分析表征[J].林业科学,2010,46(12):114-118. [30]李贤军,刘元,苏洪泽,等.高温炭化处理对木材平衡含水率的影响规律[J].林业实用技术,2008(10):50-51. [31]Borrega M, Krenlampi P. Hygroscopicity of heattreated Norway spruce(Picea abies) wood[J]. Eur J Wood Prod ,2010,68:233-235. [32]Phuong L, Shida S,Saito Y, et al. Effects of heat treatment on brittleness of Styrax tonkinensis wood[J]. J Wood Sci, 2007,53:181-186. [33]Unsal O, Ayrilmis N. Variations in compression strength and surface roughness of heattreated Turkish river red gum(Eucalyptus camaldulensis) wood[J].J Wood Sci,2005,51:405-409. [34]Poncsak S, Kocaefe D, Bouazara M, et al. Effect of high temperature treatment on the mechanical properties of birch(Betula papyrifera)[J]. Wood Sci Technol,2006,40:647-663. [35]杨淑蕙.植物纤维化学[M].北京:中国轻工业出版社,2006. [36]黄荣凤,吕建雄,曹永建.热处理对毛白杨木材物理力学性能的影响[J].木材工业,2010,24(4):5-8. [37]刘君良,阳财喜,王雪花.增强-热处理桉树木材物理力学性能分析[J].木材加工机械,2010(3):1-4. [38]丁涛,贝政廷,李源.杉木热处理材结晶度及力学性能的研究[J].林业科技开发,2012,26(2):23-25. [39]史蔷,鲍甫成,吕建雄,等.热处理温度对圆盘豆木材力学性能的影响[J].林业机械与木工设备,2011,39(1):27-29. [40]Nural Y S, Nami K. Heat modification of wood: chemical properties and resistance to mold and decay fungi[J]. Forest Products Journal,2010,60(4):357-360. [41]刘星雨,黄荣凤,吕建雄.热处理工艺对针叶树材耐腐性及力学性能的影响[J].木材工业,2011,25(1):16-18. [42]Boonstra M J, Acker J, Kegel E, et al. Optimisation of a twostage heat treatment process: durability aspects[J]. Wood Sci Technol,2007,41(1):31-57. [43]朱昆,程康华.处理改性木材的性能分析III-热处理材的防霉性能[J].木材工业,2010,24(1):42-44. [44]史蔷,鲍甫成,吕建雄,等.圆盘豆热处理材光稳定性的研究[J].中南林业科技大学学报,2011,31(2):109-114. [45]Huang X N, Kocaefe D, Kocaefe Y, et al. Changes in wettability of heattreated wood due to artificial weathering[J]. Wood Sci Technol,2012,46:1215-1237. [46]贾东宇.高温热处理对杉木声学性能的影响[D].北京:北京林业大学,2010:43-58. [47]Ratnasingam J, Ioras F. Finishing characteristics of heat treated and compressed rubberwood[J].Eur J Wood Prod,2013,71:135-137. [48]Kariz M, Sernek M. Bonding of heattreated spruce with phenolformaldehyde adhesive[J].J Adhes Sci Technol,2010,24:1703-1716. [49]Hofmann T, Wetzig M. Heattreatment with the vacuumpress dewatering method: chemical properties of the manufactured wood and the condensation water[J].Eur J Wood Prod,2013,71:121-127. [50]Kamdem D P, Pizzi A, Triboulot M C, et al. Heattreated timber: potentially toxic byproducts presence and extent of wood cell wall degradation[J].Holz als Rohund Werkstoff,2000,58:253-257. [51]Esteves B, Videira R, Pereira H, et al. Chemistry and ecotoxicity of heattreated pine wood extractives [J]. Wood Sci Technol,2011,45:661-676. [52]李涛,蔡家斌,周定国.木材热处理技术的产业化现状[J].木材加工机械,2013(5):50-52. [53]Pervan S, Drascic G, Antonovicc A. Ecological issues of byproducts in hydrothermal wood processing [J]. Drvna Industrija,2008,59(1):29-34. [54]Younsi R, Kocaefe D, Poncsak S. CFD modeling and experimental validation of heat and mass transfer in wood poles subjected to high temperatures: a conjugate approach[J]. Heat Mass Transfer,2008(44):1497-1509.

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