Method for controlling a drivetrain having a dual-clutch transmission

What is claimed is: 1. A method for controlling a drivetrain, comprising: an internal combustion engine dependent on a load demand on a target engine torque and having a dual-clutch transmission with two sub-transmissions, each having a friction clutch positioned operatively between the internal combustion engine and a sub-transmission with a changing maximum transferable torque, wherein a specified clutch torque is set along an actuation travel path by means of a clutch actuator, wherein a clutch characteristic of the transferable clutch torque is continuously adapted over the actuation travel path, wherein a maximum engine torque for a sub-transmission, which is reduced in comparison to the target engine torque, is limited to the maximum clutch torque transferable by means of the friction clutch of that sub-transmission, wherein the maximum engine torque is ascertained on the basis of the adapted maximum clutch torque, transferable via the friction clutch, of a first correction value dependent on the actuation travel, and of a second correction value dependent on the dynamic behavior of the internal combustion engine. 2. The method for controlling a drivetrain as in claim 1 , wherein the first correction value by means of a correction function increases the maximum engine torque over the maximum transferable clutch torque, by a specified value when actuation travel is small, and reduces this value when the actuation travel increases. 3. The method for controlling a drivetrain as recited in claim 2 , wherein the value is negative at maximum actuation travel. 4. The method for controlling a drivetrain as recited in claim 3 , wherein for both sub-transmissions the values of the correction function are set from the minimum of the values of the correction functions of the two individual sub-transmissions. 5. The method for controlling a drivetrain as recited in claim 4 , wherein the second correction value increases the maximum engine torque depending on a moment of inertia of the internal combustion engine, a vehicle acceleration and a gear ratio of a gear selected in the sub-transmission. 6. The method for controlling a drivetrain as recited in claim 5 , wherein the values of the moment of inertia, the vehicle acceleration, and the gear ratio are interconnected multiplicatively. 7. The method for controlling a drivetrain as recited in claim 6 , wherein the second correction value is standardized to a specified portion of the maximum engine torque. 8. The method for controlling a drivetrain as recited in claim 7 , wherein via a first sub-transmission, with target engine torque limited to the maximum engine torque, a differential torque between target engine torque and maximum engine torque is transferred by means of the second sub-transmission, by engaging a higher gear than the gear engaged in the first sub-transmission and with the friction clutch operated with slip. 9. The method for controlling a drivetrain as recited in claim 8 , wherein torque transfer via the second sub-transmission is limited to a specified energy input into the friction clutch of the second sub-transmission. 10. The method for controlling a drivetrain as recited in claim 9 , wherein during shifting between the sub-transmissions with reduced maximum transferable clutch torque, the differential torque that exists between target engine torque and maximum engine torque can be transferred via the other sub-transmission when a gear is engaged, by engaging the other friction clutch early or delaying engaging it.