微纤化纤维素在彩喷纸表面施胶中的应用
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摘要
目的研究用微纤化纤维素与氧化木薯淀粉进行复配施胶对喷墨印刷性能的影响。方法通过改变微纤化纤维素与氧化木薯淀粉的配比,制备6组表面施胶剂,并通过对施胶前后纸张的吸水性、动态渗透性、光泽度及印刷质量等进行分析,研究用氧化木薯淀粉与微纤化纤维素进行复配施胶对喷墨印刷性能的影响。结果当氧化木薯淀粉与微纤化纤维素复配绝干质量比为100∶1时,施胶后纸张的光泽度、白度和色密度值较高,较大程度地克服了油墨渗色的缺点,文本质量也得到明显改善。结论相比于微纤化纤维素单独施胶,微纤化纤维素与氧化木薯淀粉复配对彩喷纸的喷墨印刷效果更好。
The work aims to study the effect of Micro-fibrillated Cellulose(MFC) and oxidized cassava starch on inkjet printing performance. Six groups of surface sizing agent were prepared by changing the ratio of MFC to oxidized cassava starch. The effect of oxidized cassava starch and MFC on inkjet printing performance was studied through the analysis of water absorption, dynamic permeability, gloss and printing quality of paper before and after sizing. When the oven dry mass ratio of oxidized cassava starch to MFC was 100∶1, the glossiness, whiteness and color density of the sized paper were higher, which overcame the shortcomings of ink bleaching to a great extent and improved the quality of text obviously. Compared with MFC sizing alone, the inkjet printing effect of MFC and oxidized cassava starch on color inkjet printing paper is better.
The work aims to study the effect of Micro-fibrillated Cellulose(MFC) and oxidized cassava starch on inkjet printing performance. Six groups of surface sizing agent were prepared by changing the ratio of MFC to oxidized cassava starch. The effect of oxidized cassava starch and MFC on inkjet printing performance was studied through the analysis of water absorption, dynamic permeability, gloss and printing quality of paper before and after sizing. When the oven dry mass ratio of oxidized cassava starch to MFC was 100∶1, the glossiness, whiteness and color density of the sized paper were higher, which overcame the shortcomings of ink bleaching to a great extent and improved the quality of text obviously. Compared with MFC sizing alone, the inkjet printing effect of MFC and oxidized cassava starch on color inkjet printing paper is better.
引文
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[14]CHEN Y Z,REN X H,ZHANG Z J,et al.Study on Inkjet Printability of Surface Coated Rich Mineral Paper[J].Applied Sciences in Graphic Communication and Packaging,Lecture Notes in Electrical Engineering,2018,477(1):623-628.
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[17]李玉梅.喷墨印刷的质量控制要点分析[J].印刷质量与标准化,2015(12):27-29.LI Yu-mei.Analysis on Quality Control of Inkjet Printing[J].Printing Quality&Standardization,2015(12):27-29.
[2]任雪花,孙玲.微纤化纤维素用于纸张处理的研究进展及发展趋势[J].上海包装,2017(8):43-50.REN Xue-hua,SUN Ling.Research Progress and Development Trend of Microfibrillated Cellulose Used in Paper Treatment[J].Shanghai Packaging,2017(8):43-50.
[3]LAVOINE N,DESLOGES I,BRAS J.Microfibrillated Cellulose Coatings as New Release Systems for Active Packaging[J].Carbohydrate Polymers,2014,103(3):528-537.
[4]SONIA A,DASAN K P,ALEX R.Celluloses Microfibres(CMF)Reinforced Poly(Ethylene-co-vinyl Acetate)(EVA)Composites:Dynamic Mechanical,Gamma and Thermal Ageing Studies[J].Chemical Engineering Journal,2013,228:1214-1222.
[5]DASAN K P.Feasibility Studies of Cellulose Microfiber(CMF)Reinforced Poly(Ethylene-co-vinyl Acetate)(EVA)Composites for Food Packaging Applications:Science and Engineering of Composite Materials[J].New England Journal of Medicine,2015,246(246):252-360.
[6]RANTANEN J,MALONEY T C.Consolidation and Dewatering of a Microfibrillated Cellulose Fiber Composite Paper in Wet Pressing[J].European Polymer Journal,2015,68(7):585-591.
[7]LIU K,CHEN L,HUANG L,et al.Enhancing Antibacterium and Strength of Cellulosic Paper by Coating Triclosan-loaded Nanofibrillated Cellulose(NFC)[J].Carbohydr Polym,2015,117:996-1001.
[8]SU J,MOSSE W K J,SHARMAN S,et al.Effect of Tethered and Free Microfibrillated Cellulose(MFC)on the Properties of Paper Composites[J].Cellulose,2013,20(4):1925-1935.
[9]AHOLA S.Properties and Interfacial Behaviour of Cellulose Nanofibrils[D].Helsinki,Finland:Helsinki University of Technology,2008.
[10]董增,张旭,余明,等.木薯氧化淀粉/海藻酸钠复合膜的制备及性能[J].塑料工业,2018,46(2):76-80.DONG Zeng,ZHANG Xu,YU Ming,et al.Study on Preparation and Performance of Oxidized Cassava Starch/Sodium Alginate Composite Film[J].China Plastics Industry,2018,46(2):76-80.
[11]曹立松.氧化羟丙基木薯淀粉制备及对玉米馒头食用品质的影响[D].郑州:河南工业大学,2014.CAO Li-song.Preparation of Oxidized Hydroxypropyl Tapioca Starch and Effects on Edible Quality of Corn Steamed Bread[D].Zhengzhou:Henan University of Technology,2014.
[12]张宝军.淀粉复合物的制备及其在纸张阻隔涂布中的应用[D].广州:华南理工大学,2016.ZHANG Bao-jun.Preparation of Starch Composite and Its Application in Paper Barrier Coating[D].Guangzhou:South China University of Technology,2016.
[13]DIMIC-MISIC K,RIDGWAY C,MALONEY T,et al.Influence on Pore Structure of Micro/Nanofibrillar Cellulose in Pigmented Coating Formulations[J].Transport in Porous Media,2014,103(2):155-179.
[14]CHEN Y Z,REN X H,ZHANG Z J,et al.Study on Inkjet Printability of Surface Coated Rich Mineral Paper[J].Applied Sciences in Graphic Communication and Packaging,Lecture Notes in Electrical Engineering,2018,477(1):623-628.
[15]贾君花.淀粉类表面施胶剂[J].西南造纸,2005(6):39-40.JIA Jun-hua.Starch Surface Sizing Agent[J].Southwest Pulp and Paper,2005(6):39-40.
[16]LUU W T,BOUSFIELD D W,KETTLE J.Application of Nano-fibrillated Cellulose as a Paper Surface Treatment for Inkjet Printing[C]//TAPPI's PaperCon2011,Kentucky,USA:2222-2233.
[17]李玉梅.喷墨印刷的质量控制要点分析[J].印刷质量与标准化,2015(12):27-29.LI Yu-mei.Analysis on Quality Control of Inkjet Printing[J].Printing Quality&Standardization,2015(12):27-29.
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