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Preparation and characterization of tung oil-rosin-based polyester internal sizing agent

  • Yazhou Xu , Songlin Dai , Liangwu Bi EMAIL logo und Yuxiang Chen EMAIL logo
Veröffentlicht/Copyright: 23. Juni 2021
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Nordic Pulp & Paper Research Journal
Aus der Zeitschrift Nordic Pulp & Paper Research Journal Band 36 Heft 3

Abstract

A series of tung oil-rosin-based polyester (TRP) used as internal sizing agents were prepared using rosin, tung oil, maleic anhydride, and glycerol. TRP structure and properties were examined using Fourier transform infrared spectroscopy (FT-IR), differential scanning calorimetry (DSC) and gel permeation chromatography (GPC). The TRP latexes were subsequently used as internal sizing agents, and the sizing properties were evaluated using a scanning electron microscope (SEM), a video-based dynamic contact angle measuring device and a Cobb absorbency tester. The optimal conditions for preparing the TRP sizing agent were as follows: the hydroxy-carboxyl ratio of the material was 0.25; the maleic anhydride dosage was 20 % of rosin; and the tung oil dosage was 40 % of rosin. Under the best conditions, the sized paper Cobb-60 was 15.6  g / m 2 , the tensile index was 45.1 N·m/g, the burst index was 3.1 kPa· m 2 /g, and the tear index was 15.6 mN· m 2 /g.

Keywords: internal sizing; polyester; rosin; tung oil; water resistance

Funding source: National Key Research and Development Program of China

Award Identifier / Grant number: 2016YFD0600804

Funding statement: This research was financially supported by grants from the National Key R&D Program of China (Grant No. 2016YFD0600804).

  1. Conflict of interest: The authors declare no conflicts of interest.

References

Bussell, G. W. (1974) Inmont Corporation. Maleinized fatty acid esters of 9-oxatetracyclo-4.4. 1 OO undecan-4-ol. Patent US, 3855163.Suche in Google Scholar

Candy, L., Vaca-Garcia, C., Borredon, E. (2005) Synthesis of alkenyl succinic anhydrides from methyl esters of high oleic sunflower oil. Eur. J. Lipid Sci. Technol. 107(1):3–11.10.1002/ejlt.200401079Suche in Google Scholar

Chen, G. F. (1992) Developments in the field of rosin chemistry and its implications in coatings. Prog. Org. Coat., 20(2):139–167.10.1016/0033-0655(92)80002-ESuche in Google Scholar

Crouse, B., Wimer, D. G. (1990) Alkaline sizing: An overview. TAPPI Neutral/Alkaline Short Course Notes 5–39.Suche in Google Scholar

Davison, R. W. (1986) A general mechanism of internal sizing. In: Proc. TAPPI 1986 Papermakers Conf. pp. 17–27.Suche in Google Scholar

Fallmannn, J., Sychra, M., Schmid, L., et al. (2007) Paper sizing emulsion, process for preparing it and use thereof. Wo Patent, 2007070912.Suche in Google Scholar

Force, Carlton G., Starr, Fredricke S. (1988) Vegetable oil adducts as emollients in skin and hair care products. U.S. Patent No 4,740,367.Suche in Google Scholar

Fukushima, K. (2016) Biodegradable functional biomaterials exploiting substituted trimethylene carbonates and organocatalytic transesterification. Polym. J. 48(12):1103.10.1038/pj.2016.80Suche in Google Scholar

Han, Z., Fina, A., Malucelli, G. (2015) Thermal shielding performances of nano-structured intumescent coatings containing organo-modified layered double hydroxides. Prog. Org. Coat. 78:504–510.10.1016/j.porgcoat.2014.06.011Suche in Google Scholar

Hodgson, K. T. (1994) A review of paper sizing using alkyl ketene dimer versus alkenyl succinic anhydride. Appita 47(5):402–406.Suche in Google Scholar

Hubbe, M. A. (2005) Acidic and alkaline sizings for printing, writing, and drawing papers. The Book and Paper Group Annual 23:139–151.Suche in Google Scholar

Hubbe, M. A. (2007) Paper’s resistance to wetting–A review of internal sizing chemicals and their effects. BioResources 2(1):106–145.10.15376/biores.2.1.106-145Suche in Google Scholar

Isogai, A., Morimoto, S. (2004) Sizing performance and hydrolysis resistance of alkyl oleate succinic anhydrides. Tappi J. 3(7):8–12.Suche in Google Scholar

Lackinger, E., Hettegger, H., Schwaiger, L., et al. (2016) Novel paper sizing agents based on renewables. Part 8: on the binding behavior of reactive sizing agents—the question of covalent versus adsorptive binding. Cellulose 23(1):823–836.10.1007/s10570-015-0794-9Suche in Google Scholar

Lackinger, E., Schmid, L., Sartori, J., et al. (2011) Novel paper sizing agents from renewables. Part 1: Preparation of a paper sizing agent derived from natural plant oils. Holzforschung 65(7):3–11.10.1515/hf.2011.007Suche in Google Scholar

Lange, R. M., Bartley, S. L., Ollinger, C. G., et al. (2009) Maleated vegetable oils and derivatives, as self-emulsifying lubricants in metalworking: U.S. Patent Application 10/585,525. 2009-8-20.Suche in Google Scholar

Liu, G., Wu, G., Chen, J., et al. (2016) Synthesis, modification and properties of rosin-based non-isocyanate polyurethanes coatings. Prog. Org. Coat. 101:461–467.10.1016/j.porgcoat.2016.09.019Suche in Google Scholar

Liu, W., Chen, Z., Duan, H. (2006) Sizing behavior of cationic dispersed rosin-ester on cellulose fibers. Nord. Pulp Pap. Res. J., 21(5):586–590.10.3183/npprj-2006-21-05-p586-590Suche in Google Scholar

Rahmaninia, M., Javid, E., Varshoei, A. (2016) Process variables and the performance of cationic rosin as an internal sizing agent in recycled corrugated container pulp. BioResources 11(2):5333–5342.10.15376/biores.11.2.5333-5342Suche in Google Scholar

Sundberg, K., Käki, J., Luttikhedde, T., et al. (2010) Product for use in papermaking and preparation thereof: U.S. Patent 7,682,487. 2010-3-23.Suche in Google Scholar

Thames, Shelby, et al. (2006) Functionalized vegetable oil derivatives, latex compositions and textile finishes. U.S. Patent Application No 11/387,065.Suche in Google Scholar

Wang, F., Kitaoka, T., Tanaka, H. (2003) Supramolecular structure and sizing performance of rosin-based emulsion size microparticles. Colloids Surf. A, Physicochem. Eng. Asp. 221(1-3):19–28.10.1016/S0927-7757(03)00098-0Suche in Google Scholar

Wang, F., Tanaka, H. (2000) Aminated poly-N-vinylformamide as a modern retention aid of alkaline paper sizing with acid rosin sizes. J. Appl. Polym. Sci. 78(10):1805–1810.10.1002/1097-4628(20001205)78:10<1805::AID-APP120>3.0.CO;2-XSuche in Google Scholar

Xu, Y., Chen, Y., Zhao, Z. Synthesis and characterization of waterborne tung oil-rosin based hyperbranched polyester, Fine Chemicals 36(7):1294–1300.Suche in Google Scholar

Zou, Y., Hsieh, J. S., Wang, T. S., et al. (2003) Rosin sizing under neutral-alkaline papermaking conditions. Tappi J. 3(7):E41.Suche in Google Scholar
Received: 2021-05-11
Accepted: 2021-05-18
Published Online: 2021-06-23
Published in Print: 2021-09-27

© 2021 Walter de Gruyter GmbH, Berlin/Boston

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  1. Frontmatter
  2. Chemical pulping
  3. Mapping variation of handsheet properties within loblolly pine trees
  4. A simplified kinetic model for modern cooking of aspen chips
  5. Bleaching
  6. Bleaching of bagasse-pulp using short TCF and ECF sequence
  7. Mechanical pulping
  8. Energy efficiency in mechanical pulping – definitions and considerations
  9. Paper technology
  10. Development of ash condensation performance of paper materials via saccharides and Nano HAP application
  11. Effects of calcium silicate synthesized in situ on Fiber loading and paper properties
  12. Production of fines from refined kraft pulp by fractionation with micro-perforated screens
  13. Dynamic-head space GC-MS analysis of volatile odorous compounds generated from unbleached and bleached pulps and effects on strength properties during ageing
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  15. Paper physics
  16. Phenomenological analysis of constrained in-plane compression of paperboard using micro-computed tomography Imaging
  17. Paper chemistry
  18. Preparation and characterization of tung oil-rosin-based polyester internal sizing agent
  19. Coating
  20. Research on brightening modification of molecular sieves coated fly ash based on alkaline melting hydrothermal method
  21. Application of modified cellulose nanofibrils as coating suspension on recycled paper using size press
  22. Chemical technology/modifications
  23. Novel calcium carbonate filler for cellulose industry
https://doi.org/10.1515/npprj-2021-0033
Schlagwörter für diesen Artikel
internal sizing; polyester; rosin; tung oil; water resistance

Artikel in diesem Heft

  1. Frontmatter
  2. Chemical pulping
  3. Mapping variation of handsheet properties within loblolly pine trees
  4. A simplified kinetic model for modern cooking of aspen chips
  5. Bleaching
  6. Bleaching of bagasse-pulp using short TCF and ECF sequence
  7. Mechanical pulping
  8. Energy efficiency in mechanical pulping – definitions and considerations
  9. Paper technology
  10. Development of ash condensation performance of paper materials via saccharides and Nano HAP application
  11. Effects of calcium silicate synthesized in situ on Fiber loading and paper properties
  12. Production of fines from refined kraft pulp by fractionation with micro-perforated screens
  13. Dynamic-head space GC-MS analysis of volatile odorous compounds generated from unbleached and bleached pulps and effects on strength properties during ageing
  14. Composite paper from an agricultural waste of bagasse sugarcane and pineapple leaf fibre: a novel random and multilayer hybrid fibre reinforced composite paper
  15. Paper physics
  16. Phenomenological analysis of constrained in-plane compression of paperboard using micro-computed tomography Imaging
  17. Paper chemistry
  18. Preparation and characterization of tung oil-rosin-based polyester internal sizing agent
  19. Coating
  20. Research on brightening modification of molecular sieves coated fly ash based on alkaline melting hydrothermal method
  21. Application of modified cellulose nanofibrils as coating suspension on recycled paper using size press
  22. Chemical technology/modifications
  23. Novel calcium carbonate filler for cellulose industry
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