Stretch blow molding process

The invention claimed is: 1. A stretch blow molding process for producing a plastic container from a preform, comprising: providing a preform having an elongated tubular preform body, which extends along a central axis of the preform and has a first end and a second end essentially opposite the first end, wherein the first end is closed by a bottom of the preform and a neck part with a spout opening is connected to the second end, and having a wall bordering an interior space of the preform and having an inside and an outside; heating the body of the preform to at least 70° C.; inserting the preform into a cavity in a blow molding mold; inserting a stretching mandrel comprising a stretching mandrel body and a stretching mandrel tip into the preform until the stretching mandrel tip reaches the preform body, the stretching mandrel in the form of an essentially continuous cylinder having a substantially constant diameter from the stretching mandrel tip to at least up to the spout opening of the preform when stretched; stretching the body of the preform and the bottom of the preform with the stretching mandrel in the cavity, shaping the preform body and the bottom of the preform according to the cavity by introducing a fluid into the preform under pressure; and contacting an inside of the wall in an area of the preform body in at least one predetermined partial area with the stretching mandrel, while it is being inserted into the preform, until it reaches the bottom of the preform, the stretching mandrel coming into contact with at least 30% of an inside of the wall in an area of the body of the preform when the stretching mandrel reaches the bottom of the preform. 2. The stretch blow molding process of claim 1 , wherein the stretching mandrel body comprises an outside with an exterior contour, so that the inside of the wall of the preform is contacted by the outside of the stretching mandrel body on at least two partial areas extending essentially along the central axis of the preform, so that they are essentially opposite one another with respect to the central axis of the preform, while the stretching mandrel is being inserted into the preform. 3. The stretch blow molding process of claim 2 , wherein the stretching mandrel body comprises at least one groove extending essentially as far as the tip of the stretching mandrel or into the tip of the stretching mandrel, the at least one groove configured so that the fluid can be introduced from the spout opening in the preform up to the bottom of the preform when the stretching mandrel has stretched the preform body and the bottom of the preform into the cavity as far as an inside wall of the cavity. 4. The stretch blow molding process of claim 1 , wherein, the stretching mandrel extends along a central axis of the stretching mandrel, an extent of the stretching mandrel body at a right angle to the central axis of the stretching mandrel is at least as large in an area adjacent to the stretching mandrel tip as is the extent of the interior space of the preform at a right angle to the central axis of the preform in an area of the body of the preform connected to the bottom of the preform body in an unstretched state of the preform body, and the extent of the interior space is less than 7 millimeters. 5. The stretch blow molding process of claim 1 , wherein the stretching mandrel, while being inserted into the preform, widens the preform body. 6. The stretch blow molding process of claim 1 , wherein before the stretching mandrel is inserted into the preform, the inside of the wall has a temperature at least 10° C. higher in an area of the preform body than the outside of the wall in the area of the preform body, wherein the inside of the wall in the area of the preform body is at a temperature of at least 100° C. 7. The stretch blow molding process of claim 1 , wherein the preform body before being heated is at a temperature of less than 40° C. 8. The stretch blow molding process of claim 1 , wherein the stretching mandrel comprises at least one of a heat-insulating layer or an adhesion-reducing layer on an outside thereof. 9. The stretch blow molding process of claim 1 , wherein an outside of the stretching mandrel or the inside of the wall of the preform comprises a plurality of webs running in an area of the preform body along an insertion direction, establishing contact between the stretching mandrel and the preform during insertion of the stretching mandrel. 10. The stretch blow molding process of claim 1 , wherein the fluid is inserted through the tip of the stretching mandrel. 11. The stretch blow molding process of claim 1 , wherein the stretching mandrel is heated outside of the blow molding mold before insertion into the preform. 12. The stretch blow molding process of claim 1 , wherein the tip of the stretching mandrel travels a distance between 20 and 200 millimeters while the preform body and the bottom of the preform are being stretched into the cavity by the stretching mandrel. 13. The stretch blow molding process of claim 4 , wherein an extent of the interior space is less than 6 millimeters. 14. The stretch blow molding process of claim 4 , wherein an extent of the interior space is less than 5 millimeters. 15. The stretch blow molding process of claim 4 , wherein an extent of the interior space is less than 3 to 4 millimeters. 16. A stretch blow molding process for producing a plastic container from a preform, comprising: providing a preform having an elongated tubular preform body, which extends along a central axis of the preform and has a first end and a second end essentially opposite the first end, wherein the first end is closed by a bottom of the preform and a neck part with a spout opening is connected to the second end, and having a wall bordering an interior space of the preform and having an inside and an outside; heating the body of the preform to at least 70° C.; inserting the preform into a cavity in a blow molding mold; heating a stretching mandrel comprising a stretching mandrel body and a stretching mandrel tip outside of the blow molding mold before insertion into the preform inserting the stretching mandrel into the preform until the stretching mandrel tip reaches the preform body; stretching the body of the preform and the bottom of the preform with the stretching mandrel in the cavity, shaping the preform body and the bottom of the preform according to the cavity by introducing a fluid into the preform under pressure; contacting an inside of the wall in an area of the preform body in at least one predetermined partial area with the stretching mandrel, while it is being inserted into the preform, until it reaches the bottom of the preform. 17. The stretch blow molding process of claim 16 , wherein the stretching mandrel body comprises an outside with an exterior contour, so that the inside of the wall of the preform is contacted by the outside of the stretching mandrel body on at least two partial areas extending essentially along the central axis of the preform, so that they are essentially opposite one another with respect to the central axis of the preform, while the stretching mandrel is being inserted into the preform. 18. The stretch blow molding process of claim 17 , wherein the stretching mandrel body comprises at least one groove extending essentially as far as the tip of the stretching mandrel or into the tip of the stretching mandrel, the at least one groove configured so that the fluid can be introduced from the spout opening in the preform up to the bottom of the