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[1]刘慧,张蕾,张晓涛,等.甲醇联合改性大豆蛋白胶黏剂的研究[J].大豆科学,2017,36(03):447-451.[doi:10.11861/j.issn.1000-9841.2017.03.0447]
　LIU Hui,ZHANG Lei,ZHANG Xiao-tao,et al.The Research of Soybean Adhesives Union Modified by Methanol[J].Soybean Science,2017,36(03):447-451.[doi:10.11861/j.issn.1000-9841.2017.03.0447]

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甲醇联合改性大豆蛋白胶黏剂的研究

《大豆科学》[ISSN:1000-9841/CN:23-1227/S] 卷: 第36卷期数: 2017年03期页码: 447-451 栏目: 出版日期: 2017-05-20

Title:: The Research of Soybean Adhesives Union Modified by Methanol

作者:: 刘慧; 张蕾; 张晓涛; 安丽平; （内蒙古农业大学理学院，内蒙古呼和浩特 010018）

Author(s):: LIU Hui¹; ZHANG Lei²; ZHANG Xiao-tao³; AN Li-ping⁴; （Science College of Inner Mongolia Agricultural University, Huhhot 010018, China）

关键词:: 大豆分离蛋白; 胶黏剂; 改性剂; 甲醇

Keywords:: Soy protein isolated（SPI）; Adhesives; Modifier; Methanol

DOI:: 10.11861/j.issn.1000-9841.2017.03.0447

文献标志码:: A

摘要:: 以甲醇、十二烷基磺酸钠、尿素为原料，研究了它们对大豆分离蛋白改性后胶黏性的改观作用。结果表明：随着甲醇含量的增加胶合强度先增后减，当甲醇含量占总体质量分数15%时胶合强度最好。取该条件下的大豆蛋白胶黏剂进行有关反应次序的对比试验。研究表明其部分干态胶合强度略有下降，湿态胶合强度有提升,且反应次序为SDS、甲醇、尿素所得的胶黏剂胶合强度达到最优。 DSC、SEM图像和IR图像分析结果说明经此方法改性后的蛋白质展现出更多的二级结构从而大幅度的提升了其胶粘性,与此同时改性后的大豆蛋白玻璃化转化温度降低，从而降低了热压温度，说明经甲醇联合改性后的大豆蛋白胶黏剂不但能更加适应规模化的工业生产还可以节约资源。

Abstract:: This research aims to find out the improvement of SPI adhesive by methanol, SDS and urea.The results showed that with the increase of methanol content, the bonding strength increased firstly and then decreased, when the methanol content accounted for 15% of the total mass fraction, the bonding strength was the best. A contrast test of the reaction order was showed that the strength of the dry bonding was slightly decreased, and the wet bonding strength was improved.The optimal reaction order of bonding strength was SDS, methanol and urea DSC, SEM image and IR image analysis results showed that more two level structure of protein was improved, and the same was true of bonding strength. The modified soybean protein glass transition temperature decreased, thus reduced the hot pressing temperature. The protein adhesives not only can adapt to large-scale industrial production but also -saving resources

参考文献/References:

［1］Charles R F, Linda L. Protein modifers generally provide limited improment in wood bond strength of soy adhesive［J］.Forest Products Journal,2013,63(3/4):138-142.

［2］何灿忠,谭海生,佘晓东,等.表面活性剂对天然胶乳蛋白质含量影响的研究［J］. 弹性体,2009,19(4):28-32.(He C Z, Tan H S, She X D,et al. Study on of the influencing factors of the proteins content of natural rubber latex incubationed by surfactant ［J］. China Elastomerics, 2009,19 (4): 28-32.)

［3］曹洪玉,张莹莹,唐乾,等.不同类型表面活性剂与蛋白质作用研究进展［J］. 大连大学学报,2014,3(6):62-68.（Cao Ho Y, Zhang Y Y, Tang Q, et al.Research progress of the interaction of different type surfactants with proteins ［J］. Journal of Dalian University, 2014,3 (6): 62-68.）

［4］张忠慧,华欲飞. 大豆分离蛋白与低浓度尿素相互作用红外光谱分析［J］. 粮食与油脂,2007,20(7):20-21.（Zhang Z H, Hua Y F.Determination of interaction of urea and soybean protein isolate by fourier transform infrared spectroscopy ［J］. Cereals and Oils, 2007,20 (7): 20-21.）

［5］刘军霞,曾念,谢建军,等. 乙醇/尿素复合改性大豆分离蛋白胶粘剂的研究［J］. 中国胶粘剂,2013,22(12):41-45.（Liu J X, Zeng N, Xie J J, et al. Study on soybean protein isolated adhesive modified by ethanol / urea ［J］. China Adhesives, 2013,22 (12): 41-45.）

［6］曾念,谢建军,丁出,等.PVAc乳胶/改性大豆分离蛋白共混胶黏剂的制备及性能［J］.化工进展,2014,33（12）:3368-3373.（Zeng N, Xie J J, Ding C,et al. Preparation and properties of blending adhesives for PV Ac latex/modified soy protein islate ［J］. Chemical Industry and Engineering Progress,2014,33 (12): 3368-3373.）

［7］GB/T 17657—2013,人造板及饰面人造板理化性能试验方法［S］.2013.（GB/T 17657—2013,Test method for physical and chemical properties of wood-based panels and decorative wood-based panels ［S］.2013.）

［8］GB/T2793—1995,胶粘剂不挥发物含量的测定［S］.1995.（GB/T2793—1995, Determination of volatile matter content of adhesive ［S］.1995.）

［9］张亚慧,祝荣先,于文吉.改性大豆蛋白胶黏剂的酸化效应［J］. 中国人造板,2014,21（3）:17-19.（Zhang Y H, Zhu R X, Yu W J. Acidification of modified soybean protein adhesive ［J］. Chinese Wood-Based Panels, 2014,21 (03): 17-19）

［10］孙恩恵，黄红英，武国风，等.大豆蛋白基生物质胶黏剂的合成及热力学性能［J］.林产化学与工业，2015,35（2）:147-153.（Sun E H, Huang H Y, Wu G F, et al.Synthesis and thermodynamic properties of soy protein-based biomass adhesive ［J］. Chemistry and Industry of Forest Products, 2015,35 (2): 147-153）

［11］高强,李建章,张世锋，等.大豆蛋白基木材胶黏剂耐水胶接实践与原理［M］.北京：煤炭工业出版社,2014:39-40.（Gao Q, Li J Z, Zhang S F, et al. Soybean meal-based wood adhesives water resistance improvement practice and theory［M］. Beijing:China Coal Industry Publishing Home, 2014:39-40.）

［12］陈云,王念贵.大豆蛋白质科学与材料［M］.北京：化学工业出版社,2014:83-85.（Chen Y, Wang N G. Soybean protein science and materials ［M］. Beijing: Chemical Industry Press, 2014:83-85.）

［13］潘铁英，张玉兰，苏克曼.波普解析法［M］.上海：华东理工大学出版社,2009:105-107.（Pan T Y, Zhang Y L, Su K M.Pop analysis method ［M］. Shanghai: East China University of Science and Technology Press, 2009:105-107.）

［14］GB/T 9846-3—2004, 普通胶合板通用技术条件［S］.2004.（GB/T 9846.3—2004 General specification for plywood ［S］.2004.）

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备注/Memo

基金项目：内蒙古农业大学基础学科科研启动基金项目（JC2014001）；国家自然科学基金（21467021）。

第一作者简介：刘慧（1992-），女，硕士，主要从事生物质资源开发与利用。E-mail:1172663665@qq.com。

通讯作者：安丽平（1977-），女，博士，副教授，硕导，主要从事生物质资源开发与利用。E-mail:shuijing_dp@163.com。

更新日期/Last Update: 2017-06-30