Autors: T. G. Vladkova., Dineff, P. D., Gospodinova, D. N., I. Avramova.
Title: Wood Flour: New Filler for the Rubber Processing Industry. IV. Cure Characteristics and Mechanical Properties of Natural Rubber Compounds Filled by Non-Modified or Corona Treated Wood Flour
Keywords: conifer wood flour, nonmodified and activated through corona

Abstract: It is presented here how some cure characteristics and mechanical properties of rubber compounds based on nonpolar rubber, natural rubber (NR), are affected by filling with conifer wood flour, both nonmodified or corona treated in air or in ammonia. The corona treatment was performed at room temperature and varied both: treatment duration and voltage to find out the maximal reinforcing effect of the modified wood flour. The discharge voltage was varied at 10, 12, and 15 kV to include both (1) the range of relative low voltages (lower than 10 ÷ 12 kV in which the major active species arise from ionized and activated air oxygen and (2) the range of relative high voltages (12 kV and higher) in which the active species arise from simultaneously ionized and activated air oxygen and nitrogen. The chemical composition of the nonmodified and corona‐treated wood surface was controlled by X‐ray photoelectron spectroscopy (XPS) analysis. The activity of the modified wood flour was evaluated by c

References

    Issue

    Journal of Applied Polymer Science, vol. 101, issue 1, pp. 651-658, 2006, United States, Wiley Periodicals

    Copyright Wiley Periodicals, Inc.

    Цитирания (Citation/s):
    1. Jie Wang, Weidong Wu, Wencai Wang, Jianchun Zhang. Effect of a Coupling Agent on the Properties of Hemp-Hurd-Powder-Filled Styrene-Butadiene Rubber. Journal of Applied Polymer Science 121(2):681 – 689, John Wiley & Sons, Inc., July 2011, Impact Factor: 1.77, DOI: 10.1002/app.33744. - 2011 - от чужди автори в чужди издания, неиндексирани в Scopus или Web of Science
    2. Ying Yu, Q. Y. Yang, M. Nomura, Hiroyuki Hamada. Effect of Pre-Molding Process and Additive of Injection Molded Wood/PP Composites. International Polymer Processing Journal of the Polymer Processing Society 29(4):440-446, Carl Hanser Verlag, August 2014, DOI: 10.3139/217.2826. - 2014 - от чужди автори в чужди издания, неиндексирани в Scopus или Web of Science
    3. Mehmet Budakci, Abdullah Cemil İlçe, Serkan özdemir, Memiş Akkuş. Analysis of Usability in Furniture Production of Wood, Plastic Laminated Board. Bioresources 10(3):4300-4314 • May 2015. Impact Factor: 1.43, DOI: 10.15376/biores.10.3.4300-4314. - 2015 - от чужди автори в чужди издания, неиндексирани в Scopus или Web of Science
    4. Yonghui Zhou, Mizi Fan, Lihui Chen, Jiandong Zhuang. Lignocellulosic fibre mediated rubber composites: An overview. Composites Part B Engineering 76 • July 2015, Impact Factor: 2.98 • DOI: 10.1016/j.compositesb.2015.02.028 - 2015 - от чужди автори в чужди издания, неиндексирани в Scopus или Web of Science
    5. Nabel Kadum Abd Ali, A new reinforcement material for rubber compounds (Sediment dust nanoparticles and white ceminte). 1st International Scientific Conference of Engineering Sciences - 3rd Scientific Conference of Engineering Science, ISCES 2018 - Proceedings (2018), pp 163-168 DOI: 10.1109/ISCES.2018.8340547, Publisher: IEEE - 2018 - от чужди автори в чужди издания, неиндексирани в Scopus или Web of Science
    6. H Mohit, V Arul Mozhi Selvan A comprehensive review on surface modification, structure interface and bonding mechanism of plant cellulose fiber reinforced polymer based composites, Composite Interfaces, 2018 - Taylor & Francis, https://doi.org/10.1080/09276440.2018.1444832 - 2018 - от чужди автори в чужди издания, неиндексирани в Scopus или Web of Science
    7. Yonghui Zhou, Mizi Fan, Lihui Chen. Interface and bonding mechanisms of plant fibre composites: An overview. Composites Part B Engineering 101, June 2016, DOI: 10.1016/j.compositesb.2016.06.055 - 2016 - в издания, индексирани в Scopus или Web of Science
    8. S. Poompradub, Y. Ikeda, Y. Kokubo, and T. Shiono, “Cuttlebone as reinforcing filler for natural rubber,” vol. 44, no. 12. pp. 4157–4164, 2008, doi: 10.1016/j.eurpolymj.2008.09.015. - 2008 - в издания, индексирани в Scopus или Web of Science
    9. Z. X. Ooi, H. Ismail, and A. A. Bakar, “The effect of oil palm ash loading on curing characteristics and tensile properties of natural rubber vulcanizates,” 8th Asian-Australasian Conference on Composite Materials 2012, ACCM 2012 - Composites: Enabling Tomorrow's Industry Today, vol. 1. pp. 799–804, 2012 - 2012 - в издания, индексирани в Scopus или Web of Science
    10. Y. Yu, Y. Yang, M. Nomura, and H. Hamada, “Mechanical properties of glass short fiber/wood powder/polypropylene hybrid composites,” vol. 2013-July. ICCM International Committee on Composite Materials, pp. 4019–4026, 2013 - 2013 - в издания, индексирани в Scopus или Web of Science
    11. D. Shao, M. Xu, L. Cai, and S. Q. Shi, “Fabrication of wood-rubber composites using rubber compound as a bonding agent instead of adhesives,” Materials (Basel)., vol. 9, no. 6, p. 469, 2016, doi: 10.3390/ma9060469. - 2016 - в издания, индексирани в Scopus или Web of Science
    12. N. K. A. Ali, “A new reinforcement material for rubber compounds (Sediment dust nanoparticles and white ceminte),” in 2018 1st International Scientific Conference of Engineering Sciences - 3rd Scientific Conference of Engineering Science (ISCES), 2018, pp. 163–168, doi: 10.1109/ISCES.2018.8340547 - 2018 - в издания, индексирани в Scopus или Web of Science
    13. H. Mohit and V. Arul Mozhi Selvan, “A comprehensive review on surface modification, structure interface and bonding mechanism of plant cellulose fiber reinforced polymer based composites,” Compos. Interfaces, vol. 25, no. 5–7, pp. 629–667, Jul. 2018, doi: 10.1080/09276440.2018.1444832 - 2018 - в издания, индексирани в Scopus или Web of Science
    14. M. Staropoli, V. Rogé, E. Moretto, J. Didierjean, M. Michel, B. Duez, P. Steiner, G. Thielen, D. Lenoble, J.-S. Thomann, “Hybrid Silica-Based Fillers in Nanocomposites: Influence of Isotropic/Isotropic and Isotropic/Anisotropic Fillers on Mechanical Properties of Styrene-Butadiene (SBR)-Based Rubber,” Polymers 2021, Vol. 13, Page 2413, 13(15), 2413, 2021, doi:10.3390/POLYM13152413 - 2021 - в издания, индексирани в Scopus или Web of Science
    15. N. M. F. Hakimi et al., “Surface Modified Nanocellulose and Its Reinforcement in Natural Rubber Matrix Nanocomposites: A Review,” Polym. 2021, Vol. 13, no. 19, p. 3241, Sep. 2021, doi: 10.3390/POLYM13193241 - 2021 - в издания, индексирани в Scopus или Web of Science
    16. L. A. Kuvshinova, E. V. Udoratina, Yu. S. Karaseva, and E. N. Cherezova, “Physical-mechanical Properties and Morphology of Lignocellulose Powder Modifiers for Vulcanized Rubbers,” Russ J Appl Chem, vol. 96, no. 3, pp. 281–291, Mar. 2023, doi: 10.1134/S1070427223030035. - 2023 - в издания, индексирани в Scopus или Web of Science
    17. M. Rezvani, S. Sepahvand, M. Ghofrani, L. Fathi, and Ebrahimi, “Development of Laminated Flooring Using Wood and Waste Tire Rubber Composites: A Study on Physical-Mechanical Properties,” vol. 75, no. 1, pp. 107–119, 2024, doi: 10.5552/drvind.2024.0129. - 2024 - в издания, индексирани в Scopus или Web of Science

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