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压缩矩形材的动态热力学分析 被引量:5

Dynamic Thermo-Mechanical Analysis for the Compressive Rectangle Wood
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摘要 The deformation fixation of the compressive Populus ussuriensis and Larix gmelinii solid wood was studied in this paper. Dynamic thermo-mechanical analyzer was used to evaluate the change of the treated wood on different position (compare with the non-compressive control wood). The internal mechanism of compressive solid wood and compressive deformation fixation were discussed by analyzing the effect of steam treatment on dynamic thermo-mechanical parameters of the treated wood, such as loss modulus and loss tangent. The tendency of the wood components such as hemi-cellulose and lignin were also studied in this course. The results showed that with the increasing of surface distance, loss modulus and loss angle tangent decreased in glass state area, the initial glass transition temperature decreased obviously at 0.5 cm away from the surface. So the deformation fixation of the compressive wood is due to the lower molecule weight of lignin and the failure of creep recovery. The deformation fixation of the compressive Populus ussuriensis and Larix gmelinii solid wood was studied in this paper. Dynamic thermo-mechanical analyzer was used to evaluate the change of the treated wood on different position (compare with the non-compressive control wood). The internal mechanism of compressive solid wood and compressive deformation fixation were discussed by analyzing the effect of steam treatment on dynamic thermo-mechanical parameters of the treated wood, such as loss modulus and loss tangent. The tendency of the wood components such as hemi-cellulose and lignin were also studied in this course. The results showed that with the increasing of surface distance, loss modulus and loss angle tangent decreased in glass state area, the initial glass transition temperature decreased obviously at 0.5 cm away from the surface. So the deformation fixation of the compressive wood is due to the lower molecule weight of lignin and the failure of creep recovery.
作者 赵钟声 刘一星 沈隽
机构地区 东北林业大学生物质材料科学与技术教育部重点实验室
出处 《林业科学》 EI CAS CSCD 北大核心 2007年第6期151-154,共4页 Scientia Silvae Sinicae
基金 国家自然科学基金项目(39970595) 教育部重点课题(01067)资助
关键词 压缩矩形材 水蒸气处理 压缩变形固定 动态热力学分析 compressive retangle wood steam treatment compressive deformation fixation dynamic thermo-mechanical analsis
分类号 S781.3 [农业科学—木材科学与技术]
  • 相关文献

参考文献12

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  • 3東原貴志,師岡淳郎,廣澤修一,等.2004.水蒸気処理ぉょひ熱処理にょる木材の化学变化と压縮形固定の関係.木材学会誌,50(3):159-167
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  • 9劉一星,則元京,師岡淳郎.1992b.木材の横压缩变形に関する研究(Ⅱ):応力-ひずみ(义)に及ほす変形履歴と水蒸気处理の影響,第42回日本木材学会大会研究报告要旨集(名古屋)
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二级参考文献1

  • 1Liu Y X,Li J,Wang J M, et al. Study on compressive-moulding wood by steam treating at high temperature. 5th Pac Rim Biobased Composites Symposium, Canberra, 2000

共引文献6

同被引文献47

  • 1刘一星,赵钟声,张玉,沈隽.用低材质原木制作模压矩形材的研究[J].北京林业大学学报,2004,26(6):86-89. 被引量:7
  • 2刘一星,则元京,师冈淳郎.木材横纹压缩大变形应力-应变关系的定量表征[J].林业科学,1995,31(5):436-442. 被引量:42
  • 3李坚.木材科学研究[M].北京:科学出版社,2009.
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  • 7古田裕三.1999.膨润状態における木材の熱軟化特性.第5報.木材学会誌,45(3):193-198.
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  • 9吉原浩.1997.木材の压缩試驗における試驗体の高さの影響及び压缩試驗にょる簡便なャンゲ率の推定法の檢討.木材学会誌,55(9):400-404.
  • 10棚橋光彦.1998.木材庄缩成形加工技術の応用.木材工業,53(12):589-594.

引证文献5

二级引证文献6

林业科学
2007年 第6期

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