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Synthesis of New Polymeric Antioxidants.


Abstract

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References

  1. Thermoplastic Polymer Additives. Theory and Practices. Lutz, Jr. J. T.
  2. Plastics Additives, 3rd ed. Gugumus, J. F.;
  3. Photostabilization of Polymers. Rabek, J. F.
  4. Polym. Degrad. Stab. v.62 no.315 The thermal stability of BHT is about 117˚C. Pan, J. Q.;Liu, N. C.;Lau, W. W. Y.
  5. Rubber Chem. Technol. v.57 no.621 Kuczkowski, J. A.;Gillick, J. G.
  6. Polym. Bull. v.13 no.77 Munteanu, D.;Mracec, M.;Tincul, I.;Csunderlik, C.
  7. U. S. Patent. v.4 no.78 Dale, J. A.;Ng, S. Y. W.
  8. Bull. Chem. Soc. Jpn. v.64 no.1060 Kajigawchi, S.;Morikawa, Y.;Fujisaki, S.;Kakinami, T.;Nishihira, K.
  9. J. Polym. Chem. v.30 no.1821 Oishi, T.;Fujimoto, M.
  10. Phosphorus and Sulfur. v.29 no.67 Pastor, S. D.;Odorisio, P. A.;Ravichandran, R.
  11. Polymer. v.38 no.4651 Chang, J. Y.;Kim, T. J.;Han, M. J.;Choi, D. H.;Kim, N.
  12. Bull. Korean. Chem. Soc. v.15 no.531 Chang, J. Y.;Yeo, C. W.;Han, M. J.;Choi, D. H.;Park, S. Y.;Kim, N.
  13. Developments in Polymer Stabilization-8 Munteanu, D.Scott, G.;(Ed.)
  14. Angew. Makromol. Chem. v.158 no.159 Pospisil, J.
  15. Rubber. Chem. Technol. v.57 no.621 Kuczkowski, J. A.;Gillick, J. G.
  16. Polym. Degrad. Stab. v.34 no.295 Munteanu, D.;Csunderlik, C.
  17. Polym. Degrad. Stab. v.49 no.77 Al-Malaika, S.;Suharty, N.
  18. J. Appl. Polym. Sci. v.77 no.2968 Kim, T. H.;Kim, H. K.;Oh, D. R.;Lee, M. S.;Chae, K. H.;Kaang, S.
  19. J. Polym. Sci. v.32 no.917 Matsumoto, A.;Yamagishim K.;Aoki, S.

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