School of Materials Science and Technology, Beijing Forestry University, Key Laboratory ofWood Materials Science and Application of Ministry of Education, Beijing 100083, China
Institute of Wood Industry, Chinese Academy of Forestry, Beijing 100091, China
Institute of Cultural Relics Protection, Chengdu Institute of Cultural Relics and Archaeology, Chengdu 610072, Sichuan, China
[1] |
Sandstrom M, Jalilehvand F, Persson I, et al. Deterioration of the seventeenth-century warship Vasa by internal formation of sulphuric acid[J]. Nature, 2002, 415: 893?97.
doi:10.1038/415893a
|
[2] |
Walsh-Korb Z, Avérous L. Recent developments in the conservation of materials properties of historical wood[J]. Progress in Materials Science, 2019, 102: 167?21.
doi:10.1016/j.pmatsci.2018.12.001
|
[3] |
Zoia L, Salanti A, Orlandi M. Chemical characterization of archaeological wood: softwood Vasa and hardwood Riksapplet case studies[J]. Journal of Cultural Heritage, 2015, 16(4): 428?37.
doi:10.1016/j.culher.2014.09.015
|
[4] |
林国? 孟原? 王光? 浙江宁波渔山小白礁一号沉船遗址调查与试掘[J]. 中国国家博物馆馆? 2011, 33(11): 54?8.
Lin G C, Meng Y Z, Wang G Y. Survey and exploratory excavation of the Xiaobaijiao 1 Wreck Site in Yushan[J]. Journal of National Museum of China, 2011, 33(11): 54?8.
|
[5] |
张玄? 浅析饱水古木材低温低氧保藏技术—以“南海Ⅰ号”出土饱水木材标本为例[J]. 客家文博, 2020, 13(4): 17?1.
Zhang X W. Analysis on the preservation technology of moisture-saturated ancient wood at low temperature and low oxygen: taking the moisture-saturated wood specimen unearthed from “Nanhai Ⅰ as an example[J]. Hakka Cultural Heritage Vision, 2020, 13(4): 17?1.
|
[6] |
Crestini C, El Hadidi N M N, Palleschi G. Characterisation of archaeological wood: a case study on the deterioration of a coffin[J]. Microchemical Journal, 2009, 92(2): 150?54.
doi:10.1016/j.microc.2009.03.003
|
[7] |
Łucejko J J, Modugno F, Ribechini E, et al. Characterisation of archaeological waterlogged wood by pyrolytic and mass spectrometric techniques[J]. Analytica Chimica Acta, 2009, 654(1): 26?4.
doi:10.1016/j.aca.2009.07.007
|
[8] |
卢芸. 木材超分子科? 科学意义及展望[J]. 木材科学与技? 2022, 36(2): 1?0.
doi:10.12326/j.2096-9694.2022026
Lu Y. Wood supramolecular science: scientific significance and prospects[J]. Chinese Journal of Wood Science and Technology, 2022, 36(2): 1?0.
doi:10.12326/j.2096-9694.2022026
|
[9] |
Majka J, Babiński L, Olek W. Sorption isotherms of waterlogged subfossil scots pine wood impregnated with a lactitol and trehalose mixture[J]. Holzforschung, 2017, 71(10): 813?19.
doi:10.1515/hf-2017-0006
|
[10] |
Hailwood A J, Horrobin S. Absorption of water by polymers: analysis in terms of a simple model[J]. Transactions of the Faraday Society, 1946, 42: 84?2.
doi:10.1039/tf946420b084
|
[11] |
Guo J, Yin Y F, Han L Y, et al. Deterioration of the cell wall in waterlogged wooden archeological artifacts, 2400 years old[J]. International Association of Wood Anatomists Journal, 2019, 40(4): 1?5.
|
[12] |
Thybring E E, Kymäläinen M, Rautkari L. Experimental techniques for characterising water in wood covering the range from dry to fully water-saturated[J]. Wood Science and Technology, 2018, 52(2): 297?29.
doi:10.1007/s00226-017-0977-7
|
[13] |
曹金? 吸着·解吸过程中水分与木材之间的相互作用—从介电弛豫及吸附热力学[D]. 北京: 北京林业大学, 2001.
Cao J Z. Interaction between water and wood during adsorption and desorption processes: from dielectric and thermodynamic approaches[D]. Beijing: Beijing Forestry University, 2001.
|
[14] |
Simón C, Esteban L G, Palacios P, et al. Thermodynamic properties of the water sorption isotherms of wood of limba (
Terminalia superbaEngl. & Diels), obeche (
Triplochiton scleroxylonK. Schum.), radiata pine (
Pinus radiataD. Don) and chestnut (
Castanea sativaMill.)[J]. Industrial Crops and Products, 2016, 94(8): 122?31.
|
[15] |
Perry N P, Audimar P B, Andy L. Thermodynamics of moisture sorption by the giant-timber bamboo[J]. Holzforschung, 1997, 51(2): 177?82.
doi:10.1515/hfsg.1997.51.2.177
|
[16] |
韩刘? 小白礁Ⅰ号沉船饱水 脱水加固木材的结构与性能研究[D]. 北京: 中国林业科学研究? 2020.
Han L Y. Structure and performance of both waterlogged and consolidated archaeological wood: a case of Xiaobaijiao No. 1 Shipwreck[D]. Beijing: Chinese Academy of Forestry, 2020.
|
[17] |
Bari E, Nazarmezhad N, Kazemi S M, et al. Comparison between degradation capabilities of the white rot fungi
Pleurotus ostreanusand
Trametes versicolorin beech wood[J]. International Biodeterioration & Biodegradation, 2015, 104(12): 231?37.
|
[18] |
孙佳? 东营凹陷页岩可动油评价及留烃机理[D]. 广州: 中国科学院大学(中国科学院广州地球化学研究所? 2021.
Sun J N. Evalution of movable oil and retention machanics of Dongying depression shales[D]. Guangzhou: University of Chinese Academy of Sciences, Guangzhou Institute of Geochemistry, 2021.
|
[19] |
Pandey K K, Pitman A J. FTIR studies of the changes in wood chemistry following decay by brown-rot and white-rot fungi[J], International Biodeterioration & Biodegradation, 2003, 52(3): 151?60.
|
[20] |
Oudiani A E, Msahli S, Sakli F. In-depth study of agave fiber structure using Fourier transform infrared spectroscopy[J]. Carbohydrate Polymers, 2017, 164(5): 242?48.
|
[21] |
Xia Y, Chen T Y, Wen J L, et al. Multi-analysis of chemical transformations of lignin macromolecules from waterlogged archaeological wood[J]. International Journal of Biological Macromolecules, 2018, 109: 407?16.
doi:10.1016/j.ijbiomac.2017.12.114
|
[22] |
袁诚, 翟胜? 章一? ? 红外光谱结合热重法对考古木材降解状况的分析[J]. 光谱学与光谱分析, 2020, 40(9): 2943?950.
Yuan C, Zhai S C, Zhang Y M, et al. Simple evaluation of the degradation state of archaeological wood based on the infrared spectroscopy combined with thermogravimetry[J]. Spectroscopy and Spectral Analysis, 2020, 40(9): 2943?950.
|
[23] |
袁诚, 陈冰? 黄曹? ? 徐州出土汉代棺木用材树种鉴定及其化学性质[J]. 林业工程学报, 2019, 4(3): 52?9.
Yuan C, Chen B W, Huang C X, et al. Species identification and chemical analysis of coffin wood in the Han Dynasty excavated in Xuzhou[J]. Journal of Forestry Engineering, 2019, 4(3): 52?9.
|
[24] |
Kadita S. Studies on the water sorption of wood[J]. Wood Research, 1960, 23: 1?1.
|
[25] |
Simpson W. Sorption theories applied to wood[J]. Wood and Fiber Science, 1980, 12(3): 183?95.
|
[26] |
García-Iruela A, García E L, García F F, et al. Effect of degradation on wood hygroscopicity: the case of a 400-year-old coffin[J]. Forests, 2020, 11(7): 712.
doi:10.3390/f11070712
|
[27] |
Nilsson T, Rowell R. Historical wood-structure and properties[J]. Journal of Cultural Heritage, 2012, 13(3): S5−S9.
doi:10.1016/j.culher.2012.03.016
|
[28] |
Urquhart A R. The mechanism of the adsorption of water by cotton[J]. Journal of the Textile Institute, 1929, 20: 125?32.
doi:10.1080/19447022908661485
|
[29] |
郭娟, 杨弢, 殷亚? 考古木材的吸湿性能及其内在影响机制[M] 北京: 科学出版? 2020: 240-249.
Guo J, Yang T, Yin Y F. The moisture adsorption properties and internal influence mechanism of archaeological wood[M]. Beijing: Science Press, 2020: 240?49.
|