NR latex is a high molecular weight (up to 106 daltons) polymer of cis-1,4-polyisoprene, produced by the rubber tree Hevea Brasiliensis, which as the name implies, is a native of South America. to Kew Gardens in London towards the end of the 19th century. Seeds of the rubber tree were taken by the British explorer Sir Henry Wickham from Brazil Some of the seeds germinated, and seedlings were then transferred to Sri Lanka and Singapore, starting the cultivation of rubber in South- East Asia. Successful cultivation of the tree requires a tropical environment, with high temperatures and high annual rainfall. It is usually grown at lower levels and is rarely seen above 400 m. Intensive study over the years has resulted in the development of many different clones of the original strain, selected for high yield, rapid growth and resistance to disease. The structure of the NR molecule is shown in Figure 1.1.

Although NR is grown in many countries nowadays, at the time of writing the main production areas are in South East Asia, principally Thailand, Indonesia and Malaysia, Vietnam and India. There is also significant production in China, Sri Lanka, the Philippines and Cambodia, with smaller amounts in Africa (principally Liberia) and Central America. The production of NR latex in its original home in the Brazilian rainforests is still low, in part because of a fungal infection, South American leaf blight, to which the rubber tree is prone.

As the latex vessels spiral clockwise up the tree, the cut will generally be made diagonally downwards, from high on the left-hand side to low on the right-hand side. This way, the maximum number of latex vessels are opened up. The latex flows out readily at first, then slows down and eventually dries up. Tapping is normally carried out early in the morning when the flow of latex is highest and temperatures (and hence the rate of drying) are lower. The yield from each tree depends on many factors, including the particular clone, the size of the tree and the age at which it was first tapped, amongst others. The trees will be tapped again, reopening the cut by shaving off as little of the bark as possible. Although some clones can be retapped daily, retapping generally takes place on alternate days, as the quality of the latex can be reduced by more frequent tapping. The latex will coagulate and dry if left, and is also prone to microbiological spoilage. For this reason, it is usual to put some ammonia into the collecting cup which prevents putrefaction and helps keep the latex liquid. The tapper will return to collect the latex from the collecting cup a few hours later and add it to the latex collected from the other trees. The bulked latex is transferred to the collecting station and from there onto the concentration factory. On arrival at the factory, the latex will be analysed to establish its quality, which will determine whether it is used to produce latex concentrate or dry rubber. Typically, this field latex will have a rubber content of around 30 to 35%. For subsequent use, the latex is concentrated to give a dry rubber content of about 60 to 65% – above this the viscosity rises rapidly and the latex becomes increasingly difficult to handle and process. The rubber particles have a density of around 0.92 kg/m3 and so are lighter than the aqueous phase in which they are dispersed. This density difference allows the latex to be concentrated by centrifuging. Latex can also be concentrated by creaming or evaporation, although most latex used for dipping is centrifuged. C...