Methods for controlling the mixing process of processing rubber

What is claimed is: 1. A method for processing a rubber, comprising: a mastication stage comprising the steps of; allowing a material to exist in a kneading chamber equipped with a stirring rotor whose rotational speed being automatically controllable by a control section, the kneading chamber being enclosed and capable of measuring and outputting an interior temperature, and the material containing a rubber component; and setting a control time and a target temperature on the control section wherein the target temperature is set to a temperature lower than 100° C.: a first kneading stage comprising the steps of; allowing the rubber component to exist in the kneading chamber; setting a control time and a target temperature on the control section; and maintaining the rubber component at the actual temperature almost equal to the target temperature over an extended period of time: and a second kneading stage comprising the steps of; adding a vulcanizing agent to the rubber component in the kneading chamber; and setting a control time and a target temperature on the control section: wherein stirring inside the kneading chamber while automatically controlling the rotational speed by a PID control configured to attempt to match the actual temperature with the target temperature until expiration of a control time being set, based on the information regarding the actual temperature and information regarding a target temperature being set, during and after completion of each stage. 2. The method for processing a rubber according to claim 1 , wherein the material contains a natural rubber or a rubber mixture containing 50% or more of a natural rubber. 3. The method for processing a rubber according to claim 2 , wherein during the mastication stage the target temperature is set to a temperature lower than a lower limit temperature at and above with the natural rubber is scorched. 4. The method for processing a rubber according to claim 1 , wherein the material contains a rubber component, silica and a silane coupling agent. 5. The method for processing a rubber according to claim 4 , wherein during the first kneading stage the target temperature is lower than a lower limit temperature at which the rubber component undergoes gelation, and higher than a lower limit temperature at which a coupling reaction of silica with a silane coupling agent occurs. 6. The method for processing a rubber according to claim 5 , wherein the rubber component contains a modified styrene-butadiene rubber modified with an amine and an alkoxysilane, and the silane coupling agent contains bis(3-triethoxysilylpropyl)disulfide or a blocked mercaptosilane. 7. The method for processing a rubber according to claim 4 , wherein during the first kneading stage the rubber component is maintained at the actual temperature almost equal to the target temperature over an extended period of time to permit a sufficient coupling reaction of the silane coupling agent in the kneading chamber. 8. The method for processing a rubber according to claim 1 , wherein during the second kneading stage the target temperature is a temperature lower than a lower limit temperature at which the rubber component initiates cross-linking. 9. The method for processing a rubber according to claim 8 , wherein the target temperature is a temperature lower than 120° C. 10. The method for processing a rubber according to claim 9 , wherein the target temperature is a temperature lower than 110° C.