| [1] | 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. SUN Weilun, LI Jian. Analysis and characterization of dimensional stability and grystallinity of heat-treated Larix spp. [J]. Sci Silv Sin, 2010, 46(12): 114 − 118. |
| [2] | 江京辉, 吕建雄. 高温热处理对木材颜色变化影响综述[J]. 世界林业研究, 2012, 25(1): 40 − 43. JIANG Jinghui, LÜ Jianxiong. Review on color change of heat treated wood at high temperature [J]. World For Res, 2012, 25(1): 40 − 43. |
| [3] | FRUÜHWALD E. Effect of high-temperature drying on properties of Norway spruce and larch [J]. Holz Als Roh-und Werkstoff, 2007, 65(6): 411 − 418. |
| [4] | 吴再兴, 陈玉和, 黄成建, 等. 热处理对木材力学性能的影响综述[J]. 世界林业研究, 2019, 32(1): 59 − 64. WU Zaixing, CHEN Yuhe, HUANG Chengjian, et al. A review of effects of heat treatment on wood mechanical properties [J]. World For Res, 2019, 32(1): 59 − 64. |
| [5] | NAVICKAS P, ALBREKTAS D. Effect of heat treatment on sorption properties and dimensional stability of wood [J]. Mater Sci, 2013, 19(3): 291 − 294. |
| [6] | ESTEVES B, MARQUES A V, DOMINGOS I, et al. Heat-induced colour changes of pine (Pinus pinaster) and eucalypt (Eucalyptus globulus) wood [J]. Wood Sci Technol, 2008, 42(5): 369 − 384. |
| [7] | 高鑫, 周凡, 付宗营, 等. 高温热处理对欧洲云杉和花旗松吸湿特性的影响[J]. 林业工程学报, 2018, 3(4): 25 − 29. GAO Xin, ZHOU Fan, FU Zongying. Sorption isotherms characteristics of high temperature heat- treated Picea abies and Pseudotsuga menziesii [J]. J For Eng, 2018, 3(4): 25 − 29. |
| [8] | HUANG Xianai, KOCAEFE D, KOCAEFE Y, et al. A spectrocolorimetric and chemical study on color modification of heat-treated wood during artificial weathering [J]. Appl Surf Sci, 2012, 258(14): 5360 − 5369. |
| [9] | BEKHTA P, NIEMZ P. Effect of high temperature on the change in color, dimensional stability and mechanical properties of spruce wood [J]. Holzforschung, 2003, 57(5): 539 − 546. |
| [10] | TIEMANN H D. Effect of different methods of drying on the strength and hygroscopicity of wood[M]//P. G. The Kiln Drying of Lumber: A Practical and Theoretical Treatise. 3rd. Philadelphia: J B Lippincott Company, 1920: 256 − 264 |
| [11] | STAMM A J, HANSEN L A. Minimizing wood shrinkage and swelling effect of heating in various gases[J]. Ind Eng Chem Res, 29(7): 831 − 833. |
| [12] | FAN Yongming, GAO Jinmin, CHEN Yao. Colour responses of black locust (Robinia pseudoacacia L.) to solvent extraction and heat treatment [J]. Wood Sci Technol, 2010, 44(4): 667 − 678. |
| [13] | SALCA E A, KOBORI H, INAGAKI T, et al. Effect of heat treatment on colour changes of black alder and beech veneers [J]. J Wood Sci, 2016, 62(4): 297 − 304. |
| [14] | INARI G N, PÉTRISSANS M. XPS characterization of wood chemical composition after heat treatment [J]. Surf Interf Anal, 2006, 38: 1336 − 1342. |
| [15] | BORREGA M, KÄRENLAMPI P P. Mechanical behavior of heat-treated spruce (Picea abies) wood at constant moisture content and ambient humidity [J]. Holz Als Roh-und Werkstoff, 2008, 66(1): 63 − 69. |
| [16] | KUBOJIMA Y, OKANO T, OHTA M. Bending strength and toughness of heat-treated wood [J]. J Wood Sci, 2000, 46(1): 8 − 15. |
| [17] | LEE S H, ASHAARI Z, JAMALUDIN F R, et al. Physico-mechanical properties of particleboard made from heat-treated rubberwood particles [J]. Holz Als Roh-und Werkstoff, 2016, 75: 655 − 658. |
| [18] | JAMALIRAD L, DOOSTHOSEINI K, KOCH G, et al. Investigation on bonding quality of beech wood (Fagus orientalis L.) veneer during high temperature drying and aging [J]. Holz Als Roh-und Werkstoff, 2011, 70(4): 497 − 506. |
| [19] | BHUIYAN T R, HIRAI N. Study of crystalline behavior of heat-treated wood cellulose during treatments in water [J]. J Wood Sci, 2005, 51(1): 42 − 47. |
| [20] | GUO Xin, WU Yiqiang, YAN Ning. In situ micro-FTIR observation of molecular association of adsorbed water with heat-treated wood [J]. Wood Sci Technol, 2018, 52(4): 971 − 985. |
| [21] | MOHAREB A, SIRMAH P, PÉTRISSANS M, et al. Effect of heat treatment intensity on wood chemical composition and decay durability of Pinus patula [J]. Eur J Wood Prod, 2012, 70(4): 519 − 524. |
| [22] | ESTEVES B, GRAÇA J, PEREIRA H. Extractive composition and summative chemical analysis of thermally treated eucalypt wood [J]. Holzforschung, 2008, 62(3): 344 − 351. |
| [23] | OKON K E, LIN Fengcai, CHEN Yandan, et al. Effect of silicone oil heat treatment on the chemical composition, cellulose crystalline structure and contact angle of Chinese parasol wood [J]. Carbohydr Polym, 2017, 164: 179 − 185. |
| [24] | MENG F, YU Y, ZHANG Y, et al. Surface chemical composition analysis of heat-treated bamboo [J]. Appl Surf Sci, 2016, 371: 383 − 390. |
| [25] | BRANDT B, ZOLLFRANK C, FRANKE O, et al. Micromechanics and ultrastructure of pyrolysed softwood cell walls [J]. Acta Biomater, 2010, 6(11): 4345 − 4351. |
| [26] | INARI G N, PÉTRISSANS M, GÉRARDIN P. Chemical reactivity of heat-treated wood [J]. Wood Sci Technol, 2007, 41(2): 157 − 168. |
| [27] | GARROTE G, DOMÍNGUEZ H, PARAJÓJ C. Study on the deacetylation of hemicelluloses during the hydrothermal processing of Eucalyptus wood [J]. Holz Als Roh-und Werkstoff, 2001, 59(1): 53 − 59. |
| [28] | BROSSE N, HAGE R E, CHAOUCH M, et al. Investigation of the chemical modifications of beech wood lignin during heat treatment [J]. Polym Degradation Stab, 2010, 95(9): 1721 − 1726. |
| [29] | 丁涛, 王长菊, 彭文文. 基于拉曼光谱分析的热处理松木吸湿机理研究[J]. 林业工程学报, 2016, 1(5): 15 − 19. DING Tao, WANG Changju, PENG Wenwen. A theoretical study of moisture sorption behavior of heat-treated pine wood using Raman spectroscopic analysis [J]. J For Eng, 2016, 1(5): 15 − 19. |
| [30] | 王喆, 孙柏玲, 刘君良, 等. 真空热处理日本落叶松木材化学性质的变化[J]. 浙江农林大学学报, 2016, 33(6): 1052 − 1057. WANG Zhe, SUN Bailing, LIU Junliang, et al. Chemical property changes of vacuum heat-treated Larix kaempferi wood [J]. J Zhejiang A&F Univ, 2016, 33(6): 1052 − 1057. |
| [31] | 顾炼百, 丁涛, 吕斌, 等. 压力蒸汽热处理木材生物耐久性的研究[J]. 林产工业, 2010, 37(5): 6 − 9. GU Lianbai, DING Tao, LÜ Bin, et al. Study on biological durability of pressurized steam-treated wood [J]. China For Prod Ind, 2010, 37(5): 6 − 9. |
| [32] | KAMDEM D P, PIZZI A, JERMANNAUD A. Durability of heat-treated wood [J]. Holz Als Roh-und Werkstoff, 2002, 60(1): 1 − 6. |
| [33] | HAKKOU M, PÉTRISSANS M, GÉRARDIN P, et al. Investigations of the reasons for fungal durability of heat-treated beech wood [J]. Polym Degradation Stab, 2006, 91(2): 393 − 397. |
| [34] | TEMIZ A, TERZIEV N, JACOBSEN B, et al. Weathering, water absorption, and durability of silicon, acetylated, and heat-treated wood [J]. J Appl Polym Sci, 2010, 102(5): 4506 − 4513. |
| [35] | SURINI T, CHARRIER F, JÉRÔME MALVESTIO, et al. Physical properties and termite durability of maritime pine Pinus pinaster Ait., heat-treated under vacuum pressure [J]. Wood Sci Technol, 2012, 46: 487 − 501. |
| [36] | CANDELIER K, DUMARÇAY S, PÉTRISSANS A, et al. Comparison of chemical composition and decay durability of heat treated wood cured under different inert atmospheres: nitrogen or vacuum [J]. Polym Degradation Stab, 2013, 98(2): 677 − 681. |
| [37] | GÉRARDIN P. New alternatives for wood preservation based on thermal and chemical modification of wood: a review [J]. Ann For Sci, 2016, 73(3): 559 − 570. |
| [38] | 于家豪. 增强热处理木材漆膜附着性能的研究[D]. 北京: 中国林业科学研究院, 2016. YU Jiahao. Study on Coating Adhesion Improvement of Heat-treated Wood[D]. Beijing: Chinese Academy of Forestry, 2016. |
| [39] | 邓邵平, 陈寒娴, 林金春, 等. 高温热处理人工林杉木木材的材色和涂饰性能[J]. 福建农林大学学报(自然科学版), 2010, 39(5): 484 − 489. DENG Shaoping, CHEN Hanxian, LIN Jinchun, et al. Effect of high temperature heat treatment on the color and painting properties of Chinese fir plantation wood [J]. J Fujiang Agric For Univ Nat Sci Ed, 2010, 39(5): 484 − 489. |
| [40] | SAHA S, KOCAEFE D, SARKAR D K, et al. Effect of TiO2-containing nano-coatings on the color protection of heat-treated jack pine [J]. J Coatings Technol Res, 2011, 8(2): 183 − 190. |
| [41] | MELKIOR T, JACOB S, GERBAUD G, et al. NMR analysis of the transformation of wood constituents by torrefaction [J]. Fuel, 2012, 92(1): 271 − 280. |
| [42] | ESTEVES B, MARQUES A V, DOMINGOS I, et al. Influence of steam heating on the properties of pine (Pinus pinaster) and eucalypt (Eucalyptus globulus) wood [J]. Wood Sci Technol, 2008, 41(3): 193 − 207. |
| [43] | WANG Wang, ZHU Yuan, CAO Jinzhen Z, et al. Monitoring electrical properties of thermally modified wood as a possible tool for quality assessment[J]. Holzforschung, 2016, 70(4): 351−359. |
| [44] | ESTEVES B, PEREIRA H. Quality assessment of heat-treated wood by NIR spectroscopy [J]. Holz Als Roh-und Werkstoff, 2008, 66(5): 323 − 332. |
| [45] | BRISCHKE C, WELZBACHER C R, BRANDT K, et al. Quality control of thermally modified timber: Interrelationship between heat treatment intensities and CIE L*a*b* color data on homogenized wood samples [J]. Holzforschung, 2007, 61(1): 19 − 22. |
| [46] | CHAOUCH M, PÉTRISSANS M, PÉTRISSANS A, et al. Use of wood elemental composition to predict heat treatment intensity and decay resistance of different softwood and hardwood species [J]. Polym Degradation Stab, 2010, 95(12): 2255 − 2259. |
| [47] | 丁涛, 彭文文, 李涛. 基于FT-IR和XPS的热处理白蜡木材色变化机理[J]. 林业工程学报, 2017, 2(5): 25 − 30. DING Tao, PENG Wenwen, LI Tao. Mechanism of color change of heat-treated white ash wood by means of FT-IR and XPS analyses [J]. J For Eng, 2017, 2(5): 25 − 30. |
| [48] | ŠUŠTERŠIC Ž, MOHAREB A, CHAOUCH M, et al. Prediction of the decay resistance of heat treated wood on the basis of its elemental composition [J]. Polym Degradation Stab, 2010, 95(1): 94 − 97. |