[1]宋文敏,陈晨,江明明,等.硅烷偶联剂对咖啡渣的表面改性及其对咖啡渣/聚丙烯木塑复合材料性能的影响[J].浙江理工大学学报,2023,49-50(自科五):560-565.
SONG Wenmin,CHEN Chen,JIANG Mingming,et al.Surface modification of spent coffee grounds by the silane coupling agent and its effect on the properties of spent coffee grounds/polypropylene wood plastic composites[J].Journal of Zhejiang Sci-Tech University,2023,49-50(自科五):560-565.
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硅烷偶联剂对咖啡渣的表面改性及其对咖啡渣/聚丙烯木塑复合材料性能的影响(
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SONG Wenmin,CHEN Chen,JIANG Mingming,et al.Surface modification of spent coffee grounds by the silane coupling agent and its effect on the properties of spent coffee grounds/polypropylene wood plastic composites[J].Journal of Zhejiang Sci-Tech University,2023,49-50(自科五):560-565.
)浙江理工大学学报[ISSN:1673-3851/CN:33-1338/TS]
- 卷:
- 第49-50卷
- 期数:
- 2023年自科第五期
- 页码:
- 560-565
- 栏目:
- 出版日期:
- 2023-09-24
文章信息/Info
- Title:
- Surface modification of spent coffee grounds by the silane coupling agent and its effect on the properties of spent coffee grounds/polypropylene wood plastic composites
- 文章编号:
- 1673-3851 (2023) 09-0560-06
- 分类号:
- TB332
- 文献标志码:
- A
- 摘要:
- 为解决咖啡渣(Spent coffee grounds,SCG)与聚丙烯(Polypropylene,PP)界面相容性差的问题,研究3种不同类型的硅烷偶联剂改性SCG及其对SCG/PP木塑复合材料性能的影响。以3-氨丙基三甲氧基硅烷(3-aminopropyl trimethoxy silane,KH540)、3-氨丙基三乙氧基硅烷(3-aminopropyl triethoxy silane,KH550)和乙烯基三甲氧基硅烷(vinyl trimethoxy-silane,A171)这3种硅烷偶联剂作为表面改性剂,分别对SCG进行表面改性处理,并将改性SCG作为填料,通过熔融共混法制备了SCG/PP木塑复合材料;采用场发射扫描电子显微镜、傅里叶红外光谱仪和视频接触角仪对SCG的微观形貌、官能团特征和亲疏水性进行分析,并通过万能试验机、场发射扫描电子显微镜、热重分析仪、差示扫描量热仪、X射线衍射仪测试SCG/PP复合材料的力学性能、界面相容性、热稳定性、熔融结晶性能。结果表明:这3种硅烷偶联剂均成功接枝到SCG上,并有效提高了SCG的疏水性,增强了与PP之间的界面结合能力。3种硅烷偶联剂均可提高复合材料的拉伸强度,同时降低断裂伸长率;其中硅烷偶联剂A171改性制备的复合材料综合性能最好,拉伸强度比未经改性处理的SCG/PP复合材料提高48.6%,断裂伸长率仅下降4.4%。该研究可为解决SCG与PP界面相容问题及制备高性能SCG/PP复合材料提供参考。
参考文献/References:
[ 1 ]孟洵 , 李利芬 , 余丽萍 , 等 . 木质纤维结构对木塑复合材料力学性能的影响[ J ] . 塑料科技 , 2022, 50(5): 103-107. [2]施金杰, 乔慧, 欧阳水平, 等. 咖啡渣高值化利用研究进展[J].生物加工过程, 2022, 20(5):521-529. [3]Kalebek N A. Fastness and antibacterial properties of polypropylene surgical face masks dyed with coffee grounds[J]. The Journal of the Textile Institute, 2022, 113(7): 1309-1315. [4]易帆, 王雪梅, 洪国英, 等. 咖啡渣的研究进展及其在纺织印染领域的应用展望[J]. 染整技术, 2021, 43(10): 1-4. [5]Santhanarajan A E, Han Y H, Koh S C. The efficacy of functional composts manufactured using spent coffee ground, rice bran, biochar, and functional microorganisms[J]. Applied Sciences, 2021, 11(16): 7703. [6]Jamari S S, Vennu S V, Ghazali S, et al. Effect of spent coffee grounds and rice husk amount towards the swelling properties of hydrogel using graft polymerization[J]. Materials Today: Proceedings, 2021, 41: 140-143. [7]Nurman S, Yulia R K, Irmayanti I, et al. Optimizing anti-inflammatory activities of Arabica coffee ground (Coffee arabica L.) nanoparticle gel[J]. Jundishapur Journal of Natural Pharmaceutical Products, 2021, 16(2): e102673. [8]Franca A S, Olievira L S. Potential uses of spent coffee grounds in the food industry[J]. Foods (Basel, Switzerland), 2022, 11(14): 2064. [9]Zarrinbakhsh N, Wang T, Rodriguze-Uribe A, et al. Characterization of wastes and coproducts from the coffee industry for composite material production[J]. BioResources, 2016, 11(3): 7637-7653. [10]李利芬, 胡福, 李秋玲, 等. 偶联剂与相容剂协同处理对马尾松木粉/PE复合材料性能的影响[J]. 塑料工业, 2022, 50(11): 167-173.
备注/Memo
- 备注/Memo:
-
收稿日期: 2022-11-30
网络出版日期:2023-04-10
基金项目: 浙江省国际科技合作项目-双边产业联合研发计划项目(2022C04027)
作者简介: 宋文敏(1998-),女,陕西咸阳人,硕士研究生,主要从事复合材料方面的研究
通信作者: 蔡玉荣,E-mail:caiyr@zstu.edu.cn
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