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Starches have been used as the surface sizing or coating material to enhance the strength and surface properties of paper. The main mechanisms behind their performance are physical and chemical interactions between cellulosic fibres and starches. In this study, the usage of glyoxal in an oxidized starch-based sizing mixture was studied to improve the chemical crosslinking due to the additional hydrogen and acetal bonds. The performance of glyoxal on starch sizing formula containing oxidized starch, styrene acrylate and polyaluminium chloride were studied in terms of water resistance and mechanical properties of paper. The results showed that the water absorption values (Cobb60) decreased by 32% when adding glyoxal to paper coated with the reference solution, which contained only a styrene acrylate copolymer. Additionally, with this newly formulated surface sizing application, the tensile strength of the papers increased by about 16% compared with the reference.
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Tom
Strony
Art. no. 1644--3985.444.09
Opis fizyczny
Bibliogr. 26 poz., rys., tab., wykr.
Twórcy
autor
- ANKUTSAN A.S. R&D Center, Antalya, Turkey
autor
- Karadeniz Technical University, Trabzon, Turkey
autor
- Karadeniz Technical University, Trabzon, Turkey
Bibliografia
- Anderson J. [1997]: Surface Sizing. Surface Application of Paper Chemicals 339: 138–155
- Aydemir C., Kasikovic N., Horvath C. Durdevic S. [2021]: Effect of paper surface propertıes on ınk color change, prınt gloss and light fastness resistance. Cellulose Chemıstry and Technology 55 [3]: 133-139
- Bung J. [2004]: Surface sizing agents. IPPTA 16 [3]: 29-43
- Chen Z., Zhang H., Song Z., Qian X. [2013]: Combination of glyoxal and chitosan as the crosslinking system to improve paper wet strength. Bioresources 8 [4]: 6087-6096
- Cheng M., Kong R., Zhang R., Wang X., Wang J., Chen M. [2021]: Effect of glyoxal concentration on the properties of corn starch/polyvinyl alcohol)/carvacrol nano emulsion active films. Industrial Crops & Products 17[113864]: 1-12
- Cordes, E.H.; Bull, H.G. [1974]: Mechanism and catalysis for the hydrolysis of acetals, ketals, and ortho esters. ChemRev. 74: 581-603
- Detduangchan, N., Sridach, W., Wittaya, T. [2014]: Enhancement of the properties of biodegradable rice starch films by using chemical crosslinking agents. International Food Research Journal 21 [13]: 1225-1235
- Gadhave R. V., Mahanwar P. A., Gadekar P. T. [2019]: Study on various compositions of polyvinyl alkohol and starch blends by cross-linking with glyoxal. Open Journal of Polymer Chemistry 9: 76-85
- Halttunen M., Loija M., Vuorinen T., Stenius P., Tenhunen J., Kentta E. [2001]: Determination of SB latex distribution at paper coating surfaces with FTIR/ATR Spectroscopy. Proc 2001 Tappi Coating Conf. and Trade Fair, San Diego CA, 203–211
- Hassan R. R. A., Mahmoud S. M. A., Karam Y. A., Salah S. M., Ebrahim S. Y., Abdelwahab M. A., Ahmed A. M. H., Hayssam M. A., Böhm M., and Salem M. Z. [2021]: Application of frankincense and rice starch as eco-friendly substances for the resizing of paper as a conservation practice. Bio Resources, 16[4]: 7180-7204
- Hung D. P., Phuc M. V., Hiep1 N. Anh., Thanh1 T. V., Vuong1 N. T., Nam1 T. T., Xuan Do. D. [2017]: Oxidized maize starch: characterization and its effect on the biodegradable films part ii. infrared spectroscopy and solubility. Vietnam Journal of Science and Technology, 55[4]: 395-402
- Ibrahim M.I.J., Sapuan S.M., Zainudin E.S., Zuhri M.Y.M. [2019]: Physical, thermal, morphological, and tensile properties of cornstarch-based films as affected by different plasticizers. International Journal of Food Properties 22[1]: 925–941
- Lin D., Kuang Y., Chen G., Kuang Q., Wang C., Zhu P., Peng C., Fang Z. [2017]: Enhancing moisture resistance of starch-coated paper by improving the film forming capability of starch film. Industrial Crops and Products 100: 12–18
- Lindström T., Wagberg L., Larsson T. [2005]: On the nature of joint strength ın paper – a revıew of dry and wet strength resıns used ın paper manufacturıng. Advances in paper science and technology, trans. of the xıııth fund. res. symp. Cambridge 457–562
- Kim, T. T. [1976]: Comparison of Urea Formaldehyde, Melamine Formaldehyde, Glyoxal and Latex in Improving the Water Resistance of the Starch Coatings" Paper Engineering Senior Theses. 234
- Mittal A., Garg S., Bajpai S. [2020]: Fabrication and characteristics of poly (vinyl alcohol)-starch-cellulosic material based biodegradable composite film for packaging application. [2020]: Materials Today: Proceedings 21[3]: 1577-1582
- Mohamed R., Mohd N., Nurazzi N., Aisyah M. I. S., Mohd Fauzi F. [2017]: Swelling and tensile properties of starch glycerol system with various crosslinking agents. Innovation in Polymer Science and Technology (IPST 2016). doi:10.1088/1757-899X/223/1/012059
- Ni S., Wanga B., Zhang H., Zhang Y., Liua Z., Wua W., Xiao H., Daia H. [2019]: Glyoxal improved functionalization of starch with AZC enhances the hydrophobicity, strength and UV blocking capacities of cocrosslinked polymer. European Polymer Journal 110: 385–393
- Özdemir M., Alp, M. Ö., Aytaç A., and Deniz V. [2017]: Study of the properties of paper sized with styrenebutyl acrylate copolymers. Acta Physica Polonica A 132[3]: 1098-1101
- Reddy N., Yang Y. [2010]: Citric acid cross-linking of starch films. Food Chemistry 118: 702–711
- Vyorykka, J., Fogden, A., Daicic, J., Ernstsson, M., and Jaaskelainen, A-S. [2006]: Characterization of paper coatings – review and future possibilities, In Proc.Tappi Coatings Fundamentals Symposium, Turku, Finland 8–10 February, 43–66
- Xu G. G., Qixiang-Yang C., Deng Y. [2001]: Applications of bifunctional aldehydes to improve paper wet strength. Journal of Applied Polymer Science, 83: 2539–2547
- Zhang Y, Zhu PC, Edgren D. [2010]: Crosslinking reaction of poly (vinyl alcohol) with Glyoxal. J Polym Res, 17[5]: 725–30
- List of standards
- EN/ISO 1924-2:2008 Paper and board – Determination of tensile properties - Part 2: Constant rate of elongation method (20 mm/min)
- EN/ISO 535:2014 Paper and board — Determination of water absorptiveness — Cobb method
- EN/ISO 12192:2011 Paper and board — Determination of compressive strength — Ring crush method
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e21fe742-8edd-4e23-89df-b1dc19d7d12f