Centrifugal pendulum

The invention claimed is: 1. A centrifugal pendulum for damping rotational irregularities of a driveshaft of an internal combustion engine, comprising: a carrier flange element connectable indirectly or directly to the driveshaft, and multiple pendulum elements displaceable in relation to the carrier flange element and guided via rollers in pendulum paths, wherein each pendulum element is displaceable in relation to the carrier flange element in the circumferential direction between a first and a second stop position, and wherein at least one friction element having defined thermal expansion properties, which are different from the carrier flange element and/or the pendulum elements, is associated with the carrier flange element and is designed and arranged in such a way that in a defined temperature range of the centrifugal pendulum, upon a movement of at least one pendulum element corresponding to the friction element in the direction of a stop position, this corresponding pendulum element comes into or is in contact with the friction element before reaching the stop position, rubbing against the friction element while dissipating pendulum element movement energy. 2. The centrifugal pendulum as claimed in claim 1 , wherein the friction element is designed and arranged in such a way that the at least one corresponding pendulum element, upon a movement in the direction of the stop position, only comes into or is in contact with the friction element if the centrifugal pendulum falls below a defined temperature value, and wherein the defined temperature value is in a temperature range of 5° C. to 25° C. 3. The centrifugal pendulum as claimed in claim 1 , wherein the friction element is formed by a bimetal strip. 4. The centrifugal pendulum as claimed in claim 3 , wherein the bimetal strip is formed U-shaped on a central region in the strip longitudinal direction, viewed in cross section in the strip longitudinal direction, wherein the bimetal strip is in a planar contact connection with the carrier flange element using a U base of this region, and wherein each outer region of the bimetal strip located outside the central U-shaped region, with an outer end region in the strip longitudinal direction, is brought into contact with an outer wall, facing away from the carrier flange element, of a corresponding pendulum element, when the centrifugal pendulum is in the defined temperature range. 5. The centrifugal pendulum as claimed in claim 3 , wherein, if the centrifugal pendulum is not in the defined temperature range, the bimetal strip extends linearly, viewed in cross section in the strip longitudinal direction, at least up to outer end regions in the strip longitudinal direction and/or is in planar contact with the carrier flange element. 6. The centrifugal pendulum as claimed in claim 5 , wherein the bimetal strip is accommodated and/or arranged in the carrier flange element thickness direction at least in regions in a recess, which is not continuous of the carrier flange element, and wherein if the centrifugal pendulum is not in the defined temperature range, the bimetal strip is completely accommodated and/or arranged in this recess at least up to outer end regions in the strip longitudinal direction. 7. The centrifugal pendulum as claimed in claim 1 , wherein the friction element is formed having a defined high coefficient of thermal expansion, and wherein the friction element has a higher coefficient of thermal expansion than the at least one corresponding pendulum element and/or than the carrier flange element. 8. The centrifugal pendulum as claimed in claim 7 , wherein the friction element is secured on the carrier flange element on a fastening region, rigidly and/or immovably, and wherein the friction element includes at least one arm, protruding from the fastening region in the circumferential direction, having a friction wall region, with which an outer wall, facing away from the carrier flange element, of a corresponding pendulum element is brought into contact when the centrifugal pendulum is in the defined temperature range. 9. The centrifugal pendulum as claimed in claim 1 , wherein the friction element is formed by a bimetal strip. 10. The centrifugal pendulum as claimed in claim 9 , wherein the bimetal strip is formed U-shaped on a central region in the strip longitudinal direction, viewed in cross section in the strip longitudinal direction, wherein the bimetal strip is in a planar contact connection with the carrier flange element using a U base of this region, and wherein each outer region of the bimetal strip located outside the central U-shaped region, with an outer end region in the strip longitudinal direction, is brought into contact with an outer wall, facing away from the carrier flange element, of a corresponding pendulum element, when the centrifugal pendulum is in the defined temperature range. 11. The centrifugal pendulum as claimed in claim 9 , wherein, if the centrifugal pendulum is not in the defined temperature range, the bimetal strip extends linearly, viewed in cross section in the strip longitudinal direction, at least up to outer end regions in the strip longitudinal direction and/or is in planar contact with the carrier flange element. 12. The centrifugal pendulum as claimed in claim 11 , wherein the bimetal strip is accommodated and/or arranged in the carrier flange element thickness direction at least in regions in a recess, which is not continuous of the carrier flange element, and wherein, if the centrifugal pendulum is not in the defined temperature range, the bimetal strip is completely accommodated and/or arranged in this recess at least up to outer end regions in the strip longitudinal direction. 13. The centrifugal pendulum as claimed in claim 1 , wherein the friction element is formed having a defined high coefficient of thermal expansion, and wherein the friction element has a higher coefficient of thermal expansion than the at least one corresponding pendulum element and/or than the carrier flange element. 14. The centrifugal pendulum as claimed in claim 13 , wherein the friction element is secured on the carrier flange element on a fastening region, rigidly and/or immovably, and wherein the friction element includes at least one arm, protruding from the fastening region in the circumferential direction, having a friction wall region, with which an outer wall, facing away from the carrier flange element, of a corresponding pendulum element is brought into contact when the centrifugal pendulum is in the defined temperature range. 15. A centrifugal pendulum for damping rotational irregularities of a driveshaft of an internal combustion engine, comprising: a carrier flange element connectable indirectly or directly to the driveshaft, and multiple pendulum elements displaceable in relation to the carrier flange element, and guided via rollers in pendulum paths, wherein each pendulum element is displaceable in relation to the carrier flange element in the circumferential direction between a first and a second stop position, and wherein at least one friction element having defined thermal expansion properties, which are different from the carrier flange element and/or the pendulum element, is associated with at least one pendulum element and is designed and arranged in such a way that the pendulum element comes into contact with the carrier flange element upon a movement in the direction of a stop position before reaching the stop position in a defined temperature range of the centrifugal pendulum and rubs against the carrier flange element with the friction ele