Introduction

  • M. J. R. Loadman
Chapter

Abstract

Most readers will have their own idea of the materials they would expect to find in a book such as this but it is not easy to define them in a way which makes it immediately apparent whether or not any one is, or is not, included. The difficulty has been in part avoided by giving an appendix of the materials which have been considered in drawing up the methods and schemes in this book but, even so, some attempt must be made at definition, or at least at description.

Keywords

Natural Rubber Plantation Rubber Rubber Industry Calcium Stearate Rubber Vulcanizate 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
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References

  1. d’Anghiera, P.M. (1530) De Orbe Nouo, Compluti (now Alcalá) folio xxxv. Auleytner, J. (1953) Bulletin de l’Academie Polonaise des Sciences, 1, 5, 189.Google Scholar
  2. Baer, J. (1926) BP 279,406.Google Scholar
  3. Bouchardat, G. (1879) Compte rend. 89, 1117.Google Scholar
  4. Bruni, G. (1919) DRP 380774.Google Scholar
  5. Bruni, G. and Romani, E. (1921) Ind. Rubb. J. 62, 18.Google Scholar
  6. Carothers, W.H., Williams, I., Collins, A.M. and Kirby, J.E. (1931) J. Amer. Chem. Soc. 53, 4203.CrossRefGoogle Scholar
  7. Caspari, W. A. (1914) India-Rubber Laboratory Practice, Macmillan, London.Google Scholar
  8. de Chasseloup Laubart, F. (1942) Francois Fresneau Père de Caoutchouc, Paris.Google Scholar
  9. la Condamine, C. M. (1755) Sur une Résine elastique nouvellement découverte par M. Fresneau, in Histoire et Mémoires de l’Académie pour l’année 1751, 319 Paris.Google Scholar
  10. De, S.K. and Bhowmick, A.K. (eds) (1990) Thermoplastic Elastomers from Rubber-Plastic Blends, Ellis Horwood, London.Google Scholar
  11. Dean, W. (1987) Brazil and the Struggle for Rubber, Cambridge University Press, Cambridge.Google Scholar
  12. Ditmar, R. (1909) Die Analyse des Kautschuks der Guttapercha Balata und ihrer Zusatze, Hartleben, Vienna and Leipzig.Google Scholar
  13. Fisher, H.L. (1939) Ind. Eng. Chem. 31, 941.CrossRefGoogle Scholar
  14. Frey, H.E. (1953) Methoden zur Chemischen Analyse von Gummimischungen, Springer Verlag, Berlin.CrossRefGoogle Scholar
  15. Fusée-Aublet, J.B.C. (1755) Histoire des Plantes de la Guiane Française, London and Paris, 2, 871.Google Scholar
  16. Hancock, T. (1857) The Origin and Progress of the CAOUTCHOUC or India-rubber Manufacture in England, London.Google Scholar
  17. Haslam, J. and Willis, H.A. (1965) Identification and Analysis of Plastics, Iliffe, London.Google Scholar
  18. Haslam, J., Willis, H.A. and Squirrell, D.C.M. (1972) Identification and Analysis of Plastics, 2nd edn., Iliffe, London.Google Scholar
  19. de Herrera Tordesillas, A. (1601) Historia General de los Hechos de los Castillanos, 1, 231, Madrid.Google Scholar
  20. Hoffman, F. and Coutelle, C. (1909) GP 260690.Google Scholar
  21. Holguin, D.G. (1608) Vocabulario de la Lengua General de todo el Peru llamada Lengua Quichua, o del Inca, Ciudad de los Reyes (Lima).Google Scholar
  22. Hull, C.D. (1995) TARRC internal report reference D576.Google Scholar
  23. Hummel, D.O. (1981a) Atlas of Polymer and Plastics Analysis, Volume I, Polymers, Structures and Spectra, Carl Hanser Verlag, Munich.Google Scholar
  24. Hummel, D.O. (1981b) Atlas of Polymer and Plastics Analysis, Volume II, Plastics, Fibres, Rubbers, Resins, Carl Hanser Verlag, Munich.Google Scholar
  25. Hummel, D.O. and Scholl. F.K. (1969) Infra Red Analysis of Polymers, Resins and Additives, an Atlas: Volume I, Plastics, Elastomers, Fibres and Resins, Carl Hanser Verlag, Munich.Google Scholar
  26. Hummel, D.O. and Scholl, F.K. (1973) Infra Red Analysis of Polymers, Resins and Additives, an Atlas: Volume II, Additives and Processing Aids, Carl Hanser Verlag, Munich.Google Scholar
  27. Hyde, J.F. (1944) BP 561136/561226.Google Scholar
  28. Kline, G.M. (1959) Analytical Chemistry of Polymers I, Interscience, New York. Idem. II and III (1962).Google Scholar
  29. Kondakoff, I, (1900) J. Prakt. Chem. 62, 172.Google Scholar
  30. Lebedev, S.V. (1910) J. Russ. Phys. Chem. Soc. 42, 949.Google Scholar
  31. Legge, N.R., Holden, G. and Schroeder, H.E. (eds) (1987) Thermoplastic Elastomers. A Comprehensive Review, Hanser Publishers, Munich.Google Scholar
  32. Mathews, F.E. and Strange, E.H. (1910) EP 24790.Google Scholar
  33. Ministry of Supply (1944) Identification and Estimation of Natural and Synthetic Rubbers, Users’ Memorandum U.9, London, and (1946) Users’ Memorandum U.9A, London.Google Scholar
  34. Mitchell, J. (ed.) (1991) Applied Polymer Analysis and Characterization, Vol. 2, Hanser, Munich.Google Scholar
  35. Müller (1865–6) Linnoea, Vol. xxxiv.Google Scholar
  36. Nieuwland, J.A. (1922) Science 56, 486.Google Scholar
  37. Ostromislensky, I. (1912) GP 264123.Google Scholar
  38. Ostromislensky, I. (1913) Caoutchouc and its Analogues, Moscow.Google Scholar
  39. de Oviedo Y, Valdes, G.F. (1535) Historia natural y general de las Indias, Seville.Google Scholar
  40. Patrick, J.C. (1932) USP 1,890,191.Google Scholar
  41. Persoon, C.H. (1807) Synopsis Planarium sive Encheiridicum, Paris, 2, 588.Google Scholar
  42. Pontio, M. (1909) Analyse du Caoutchouc et de la Gutta-Percha, Gauthier-Villars, Paris.Google Scholar
  43. Roff, W.J. (1956) Fibres, Plastics and Rubbers, Butterworth, London.Google Scholar
  44. Schidrowitz, P. and Dawson, T.R. (eds) (1952) History of the Rubber Industry, Heffer and Sons, Cambridge.Google Scholar
  45. Scholl, F.K. (1981) Atlas of Polymer and Plastics Analysis, Volume III, Additives and Processing Aids, Carl Hanser Verlag, Munich.Google Scholar
  46. Sebrell, L.B. and Boord, C.E. (1923) Am. Soc. 45, 2390.CrossRefGoogle Scholar
  47. Stuart, G.E. (1993) National Geographic, November 1993, 101.Google Scholar
  48. Tilden, W.A. (1882) Chem. News 46, 120.Google Scholar
  49. Tilden, W.A. (1884) J. Chem. Soc. 47, 411.Google Scholar
  50. Tilden, W.A. (1892) Chem. News 65, 265.Google Scholar
  51. Torquemada, J. (1615) Monarchia Indiana 2, 664, Seville.Google Scholar
  52. Tryon, M. and Horowitz, E. (1963) Methods for the analysis of rubber and related products, in Handbook of Analytical Chemistry, Meites, L. (ed.), McGraw-Hill, New York.Google Scholar
  53. Tuttle, J.B. (1922) The Analysis of Rubber, Chemical Catalog Co., New York.Google Scholar
  54. Tyler, W.P (1967) Rubber Chem. Technol. 40, 238.CrossRefGoogle Scholar
  55. Tyler, W.P. and Tryon, M. (1963) in Standard Methods of Chemical Analysis, 6th edn, Welcher, F.J. (ed.), 2B, 43, Van Nostrand, Princeton.Google Scholar
  56. Urbanski, J., Czerwinski, N., Janicka, K., Majewska, F. and Zowall, H. (1977) Handbook of Analysis of Synthetic Polymers and Plastics, Halsted Press, New York.Google Scholar
  57. Wallach, O. (1887) Annalen 238, 88.Google Scholar
  58. Weber, C.O. (1902) The Chemistry of Rubber, Griffin, London.Google Scholar
  59. Weiss, M.L. (1922) USP 1411231.Google Scholar
  60. Wolf, H. and Wolf, R. (1936) Rubber, Covici Friede, New York.Google Scholar

Copyright information

© Springer Science+Business Media Dordrecht 1998

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  • M. J. R. Loadman

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