화학공학소재연구정보센터
Polymer(Korea), Vol.45, No.3, 340-345, May, 2021
높은 치수 안정성과 고온변형온도를 지니는 PP 개질화를 위한 Talcum Powder와 대나무 숯의 시너지 효과 활용
Utilization of the Synergistic Effect of Talcum Powder and Bamboo Charcoal to Modify PP with Higher Dimensional Stability and Hot Deformation Temperature
E-mail:
In order to enhance the dimensional stability and hot deformation temperature of PP composites, talcum powder (Talc) and bamboo charcoal (BC) were used as functional filler of PP composites, and a series of Talc/BC/PP composites were prepared. Characteristics, post-moulding shrinkage, hot deformation temperature and mechanical properties of the composites were investigated. The results showed that the surface of BC contains many pores and gaps, and the pores and gaps in the structure of BC were filled by PP (filled-BC) when BC added in PP, and BC filled the gaps between Talc and PP. The BC and Talc for improving dimensional stability and hot deformation temperature of PP have the synergistic effect. The PP composites have the best comprehensive mechanical properties when the addition amount of BC and Talc was 6%.
  1. Ahn SJ, Yan Y, Jeon HY, Polym. Korea, 44(1), 109 (2020)
  2. Liu W, Wang WJ, Fan H, Yu L, Li BG, Zhu S, Eur. Polym. J., 54, 160 (2014)
  3. Wang X, Hu S, Guo Y, Li GQ, Xu RW, Polymers, 11, 1976 (2019)
  4. Sauter DW, Taoufifik M, Boisson C, Polymers, 9, 185 (2017)
  5. Ramis X, Cadenato A, Salla J, Morancho J, Valles A, Contat L, Ribes A, Polym. Degrad. Stabil., 86, 48 (2004)
  6. Jeong DS, Hang SH, Kim YC, Polym. Korea, 42(6), 960 (2018)
  7. Nguyen SBT, Johnson LK, Grubbs RH, J. Am. Chem. Soc., 114, 3974 (1992)
  8. Ghoshal S, Wang PH, Gulgunje P, Verghese N, Kumar S, Polymer, 100, 259 (2016)
  9. Yoon KH, Um JH, Kim DH, Son YG, Polym. Korea, 41(6), 955 (2017)
  10. Wang K, Zhu YL, Fu Q, J. Polym. Sci., 7, 1073 (2017)
  11. Harris M, Potgieter J, Ray S, Archer R, Arif KM, Materials, 12, 4167 (2019)
  12. Yuan Q, Jiang W, An LJ, Polym. Adv. Technol., 15, 409 (2010)
  13. Yoon HJ, Gil BM, Lee JH, Park JE, Lim JH, Jo MJ, Jung KH, Wie JJ, Polym. Korea, 44(3), 255 (2020)
  14. Yang W, Zheng Y, Liu GF, Polym. Test, 24, 490 (2005)
  15. Tarig F, Shifa M, Baloch RA, Arab. J. Sci. Eng., 2, 1 (2018)
  16. Lee MC, Kim YS, Byu HJ, Baeck SH, Shim SE, Polym. Korea, 41(4), 599 (2017)
  17. Huang J, Rodrigue D, Mater. Des., 55, 653 (2014)
  18. Ameli A, Kazemi Y, Composites Part A, 96, 28 (2017)
  19. Yin X, Li S, Wang L, He G, Yang Z, Polym. Korea, 41(2), 163 (2017)
  20. Jun YS, Um JG, Jiang G, Liu G, Yu A, Composites Part B, 133, 2018 (2018)
  21. Sirin K, Yavuz M, Canli M, Polym. Korea, 39(2), 200 (2015)
  22. Al-Shabanat M, Int. J. Chem., 3, 129 (2011)
  23. Maiti SN, Rupak D, Int. J. Polym. Mater., 54, 835 (2005)
  24. Kim JS, Choi MA, Park TW, Kim D, Polym. Korea, 24(6), 770 (2000)
  25. Weon JI, Sue HJ, J. Mater. Sci., 41(8), 2291 (2006)
  26. Lubomir LJ, Pavlina J, Barbora L, J. Polym. Sci., 110, 2741 (2008)
  27. Duquesne S, Samyn F, Bourbigot S, Polym. Adv. Technol., 19, 620 (2008)
  28. Nitayaphat W, Jiratumnukul N, Charuchinda S, Kittinaovarat S, Carbohydr. Polym., 78, 444 (2009)
  29. Li X, Lei BR, Lin ZD, Huang LH, Tan SZ, Cai X, Mater. Des., 53, 419 (2014)
  30. Lou C, Lin C, Lei C, Su K, Hsu C, Liu Z, Lin J, J. Mater. Process. Tech., 04, 428 (2007)
  31. Ho M, Lau K, Mater. Lett., 136, 122 (2014)