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疏水纳米SiO2改性蜂蜡烫蜡缅甸花梨木 对紫外光的耐久性(PDF)

《南京林业大学学报(自然科学版)》[ISSN:1000-2006/CN:32-1161/S]

Issue:
2015年05期
Page:
111-117
Column:
研究论文
publishdate:
2015-10-20

Article Info:/Info

Title:
Ultraviolet durability of Bruma rosewood polished using beewax modified by hydrophobic nano SiO2
Article ID:
1000-2006(2015)05-0111-07
Author(s):
GUO Wei12 NIU Xiaoting1 CAI Yingchun1 LI Wei1
1.College of Materials Science and Engineering, Northeast Forestry University, Harbin 150040, China;
2. College of Art and Art Design,Qiqihar University,Qiqihar 161006, China
Keywords:
hydrophobic nano SiO2 modified beewax Bruma rosewood wax polish ultraviolet durability
Classification number :
S782; TQ630
DOI:
10.3969/j.issn.1000-2006.2015.05.018
Document Code:
A
Abstract:
In order to effectively improve ultraviolet aging durability of traditional wax coating hardwood surface, traditional beewax was modified by hydrophobic nano SiO2 using blending method. According to the traditional wax polish process, the surface of Bruma rosewood(100 mm×100 mm×10 mm)was treated with the modified bee wax. The ultraviolet resistance was investigated through analyzing colorimetric parameters, surface gloss, contact angle and texture prosperities change. The results showed that the application of hydrophobic nano SiO2 could effectively enhanced the ultraviolet durability of wood surface color. When the addition amount of hydrophobic nano SiO2 was 2%, the color difference of modified wood surface was minimum and the hydrophobic property of wood surface was also enhanced. The wood texture prosperities change was reduced by ultraviolet radiation 96 h. The addition of nano SiO2 reduced the wood surface gloss, and the surface gloss of wood surface treated by modified beewax with the addition hydrophobic nano SiO2 amount of 1% was close to the untreated wood. In addition, the optimal addition amount of hydrophobic nano SiO2 was 2% through the analysis of improvement of the ultraviolet durability.

References

[1] 于子勇.“蜡”在文物保护中的修复中的功用[J].艺术市场,2012(5):66-69. Yu Z Y.Function of the“Wax” in repairing of cultural relics[J]. Art Market,2012(5):66-69.
[2] 王秀林. 传统绝技—烫蜡[J].家具,2010(6):65-67. Wang X L.Traditional consummate skill:Tang-La[J].Furniture,2010(6):65-67.
[3] 胡德生,张锋,朱方刚.做好蜡活保十年—胡德生谈宫廷家具的烫蜡工艺[J].商品与质量,2012,43:107.
[4] 赵金皎. 清西陵慕陵楠木建筑烫蜡保护维修的探索与实践[J].文物春秋,2011(2):36-39.
[5] 佟达.家具烫蜡技术与装饰的研究[D].哈尔滨:东北林业大学,2008. Tong D.The research on hot wax technology and decoration of furniture[D].Harbin:Northeast Forestry University,2008.
[6] 牛晓霆,王逢瑚,佟达.影响仿明清硬木家具烫蜡质量的因素[J].林产工业,2011,38(2):46-49. Niu X T,Wang F H,Tong D. Factors influencing the waxing quality of imitation Ming and Qing hardwood furniture[J]. Chinese Forestry Products Industry,2011,38(2):46-49.
[3] 牛晓霆,王逢瑚,赵俊学.明清家具的现代烫蜡技术[J].家具,2007(6):41-44. Niu X T,Wang F H,Zhao J X.The modern Tangla technology of Ming and Qing furniture[J].Furniture,2007(6):41-44.
[8] 佟达.明式家具表面烫蜡技术的继承与应用[J].中国家具,2007(10):60-61.
[9] 王国栋,宋魁彦,佟达.烫蜡装饰对家具视觉及触觉心里特性的影响研究[J].大众文艺,2011(22):277-278.
[10] 刘大可.古建筑工程施工工艺标准[M].北京:中国建筑工业出版社,2009:1141-1150.
[11] 王效清. 中国古建筑术语词典[M].太原:山西人民出版社,1996:33.
[12] 曹志涛,侯 波,陈文艺,等. 石蜡无催化剂氧化改性[J].辽宁石油化工大学学报,2005,25(2):26-28. Cao Z T,Hou B,Chen W Y, et al. Oxidation modify process of paraffin waxes without using catalysts[J]. Journal of Liaoning University of Petroleum Chemical Industry, 2005,25(2):26-28.
[13] 张玲,廖克俭,丛玉凤,等. 皂化蜡催化氧化制备天然蜂蜡替代品[J].化学工业与工程,2009,26(5):433-436. Zhang L,Liao K J,Cong Y F, et al. Preparation of substitute of natural beeswax from saponified wax by catalytic oxidation[J]. Chemical Industry and Engineering,2009,26(5):433-436.
[14] 邓秀琴,廖克俭,丛玉凤.石蜡催化氧化反应的实现及催化作用[J].辽宁石油化工大学学报, 2005,25(4):5-8. Deng X Q,Liao K J,Cong Y F. Realization of paraffin catalytic oxidation reaction and catalytic action[J]. Journal of Liaoning University of Petroleum Chemical Industry, 2005,25(4):5-8.
[15] 宋磊. 石蜡改性的研究[D].淮南:安徽理工大学,2005. Song L. The study of modified Paraffinwax[D]. Huainan:Anhui University of Science and Technology, 2005.
[16] 张海明. 石蜡氧化、接枝及其微乳液的工艺条件研究[D].南宁:广西大学,2006. Zhang H M.Study on the operating condition of the oxidation and graft of paraffin wax and their microemulsion[D]. Nanning:Guangxi University,2006.
[17] 沈春明. 蜡的改性及其在汽车上光剂中应用的研究[D]. 淮南:安徽理工大学,2006. Shen C M. Study on the modification of waxes and application in car Polish[D]. Huainan:Anhui University of Science and Technology,2006.
[18] Bostjan Lesar, Polona Kralj, Miha Humar. Montan wax improves performance of boron-based wood preservatives[J]. International Biodeterioration & Biodegradation,2009,63:306-310.
[19] Ilaria Bonaduce,Maria Perla Colombini. Characterisation of beeswax in works of art by gas chromatography-mass spectrometry and pyrolysis-gas chromatography-mass spe ctrometry procedures[J]. Journal of Chromatography: A,2004,1028:297-306.
[20] 李能,陈玉和,包永洁,等.竹木材料耐紫外光老化性能研究进展[J].浙 江 林 业 科 技,2011,31(6):70-73. Li N,Chen Y H,Bao Y J,et al. Review on research of bamboo and wood anti-UV aging[J]. Journal of Zhejiang For Sci & Tech,2011,31(6):70-73.
[21] 柯博,黄志杰,左美祥,等.纳米SiO2在涂料中的应用[J].涂料工业,1998(12):29-30. Ke B,Huang Z J,Zuo M X,et al. Application of nano SiO2 in coatings[J].Paint & Coatings Industry,1998(12):29-30.
[22] 郑秋红,李小红,郭建辉,等.纳米二氧化硅改性超疏水性汽车蜡的研究[J]. 应 用 化 工,2005,34(8):473-481. Zheng Q H,Li X H,Guo J H,et al. Study on superhydrophobic automobile waxmodified by nano SiO2[J]. Applied Chemical Industry,2005,34(8):473-481.
[23] 闫小星,吴燕,毛卫国,等. SiO2改性对紫外光固化木器涂料性能的影响[J]. 南京林业大学学报:自然科学版,2014,38(4):173-176. Yan X X,Wu Y,Mao W G,et al. Influence of modification of UV-curing wood coatings with SiO2 on its mechanical properties and gloss[J]. Journal of Nanjing Forestry University:Natural Sciences Edition,2014,38(4):173-176.
[24] 于海鹏.基于数字图像处理学的木材纹理定量化研究[D].哈尔滨:东北林业大学,2005:77-85. Yu H P. Quantitation of wood texture by digital image processing[D]. Harbin:Northeast Forestry University,2005:77-85.

Last Update: 2015-10-15