화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Polymer(Korea), Vol.45, No.5, 688-696, September, 2021
DOI10.7317/pk.2021.45.5.688  Export Citation
폐타이어 재생 고무가 카본 블랙이 충전된 천연 고무/부타디엔 고무 복합재의 물리기계적, 열적 특성에 미치는 영향
Effect of Whole Tire Reclaim on Physico-Mechanical and Thermal Properties of Carbon Black Filled Natural Rubber/Butadiene Rubber Composite
Vaishak Nambiathodi, Siby Varghese, and Neethu Varghese
  • Technical Consultancy Division, Rubber Research Institute of India, Kottayam, Kerala-686009, India
E-mail:
Combinations of natural rubber (NR), butadiene rubber (BR), and reclaim rubber (RR) were prepared with a view to producing low-cost re-treading materials. It was found that cure time and scorch time decreased with the increase in the reclaim content. Only a small reduction in the properties was observed in almost all systems upon the addition of 30 phr of reclaim rubber. Systems with good abrasion resistance and tensile strength were obtained. High tensile values of 22.8 and 20.1 MPa were able to obtain for the NR-rich system. Tear strength can be enhanced by the addition of reclaim rubber. Elongation at break was higher for all the systems even after adding 30 phr of RR. Modulus and compression set values were increased with RR loading. The thermal behavior and activation energy of NR/BR/RR blends were improved by the addition of RR. The phase morphology of the blends was studied using a scanning electron microscope.
Keywords:activation energy;natural rubber/butadiene rubber blend;reclaim rubber;thermogravimetric analysis;scanning electron microscope analysis
  1. Sombatsompop N, Kumnuantip C, J. Appl. Polym. Sci., 87(10), 1723 (2003)
  2. Kumnuantip C, Sombatsompop N, Mater. Lett., 57, 3167 (2003)
  3. Sreeja TD, Kutty SKN, Polym. -Plast. Technol. Eng., 39, 501 (2000)
  4. Mathew G, Singh RP, Groeninckx G, Thomas S, Prog. Rubber, Plast. Recycl. Technol., 19, 205 2003.
  5. Sombatsompop N, Kumnuantip C, J. Appl. Polym. Sci., 87(10), 1723 (2003)
  6. Habib IS, George RS, J. Elastomers Plast., 29, 83 (1997)
  7. Nelson PA, Kutty SKN, Prog. Rubber Plast. Recycl. Technol., 18, 85 (2002)
  8. Sreeja TD, Kutty SKN, Polym. Plast. Technol. Eng., 4, 77 (2002)
  9. Nelson PA, Kutty SKN, Polym. Plast. Technol. Eng., 43, 245 (2004)
  10. Swor RA, Jenson LW, Budzol BW, Rubber Chem. Technol., 53, 1215 (1980)
  11. Zedler L, Zedler DK, Colom X, Canavate J, Saeb MR, Formela K, Polymers, 12, 3018 (2020)
  12. Sreeja TD, Kutty SKN, Polym. Plast. Technol. Eng., 39, 501 (2000)
  13. Coats W, Nature, 201, 68 (1964)
  14. Tseng CR, Wu SC, J. Appl. Polym. Sci., 86, 2491 (2002)
  15. De D, Maiti S, Adhikari B, J. Appl. Polym. Sci., 75(12), 1493 (2000)
  16. Sombatsompop N, Kumnuantip C, J. Appl. Polym. Sci., 87(10), 1723 (2003)
  17. Ramarad S, Khalid M, Ratnam CT, Chuah AL, Rashmi W, Prog. Mater. Sci., 72, 100 (2015)
  18. Burgoyne M, Leaker G, Krekic Z, Rubber Chem. Technol., 49, 375 (1976)
  19. Sreeja TD, Kutty SKN, Polym. Plast. Technol. Eng., 39, 501 (2000)
  20. Phadke AA, Bhowmick AK, De SK, J. Appl. Polym. Sci., 32, 4063 (1986)
  21. Rattanasom N, Poonsuk A, Makmoon T, Polym. Test, 24, 728 (2005)
  22. Ghosh J, Hait S, Ghorai S, Mondal D, Wiesner S, Das A, De D, Resour. Conserv. Recycl., 154, 104629 (2020)
  23. Ricky S, Rashmi W, Mohammad K, Nabisab MM, Mika C, Chemosphere, 265, 129033 (2021)
  24. Nambiathodi V, Varghese S, Rubber Sci., 208, 32 (2019)
  25. Phadke AA, Bhattacharya AK, Chakraborthy SK, De SK, Rubber Chem. Technol., 57, 726 (1983)
  26. Myhre M, Sitisaiyidah S, Wilma D, Jacques N, Rubber Chem. Technol., 85, 408 (2012)
  27. Parks CR, Brown RJ, Rubber Chem. Technol., 49, 233 (1976)
  28. Yen Wan Ngeow YW, Chapman AV, Heng JYY, Williams DR, Mathys S, Hull CD, Rubber Chem. Technol., 92, 237 (2019)
  29. Sabzekar M, Chenar MP, Zohuri GH, Mortazavi M, Rubber Chem. Technol., 90, 765 (2017)
  30. De D, Panda PK, Roy M, Bhunia S, Mater. Des., 46, 142 (2013)
  31. Joseph R, George KE, Francis DJ, Int. J. Polym. Mater. Polym. Biomater., 12, 111 (1987)