Assembly and method for on-wing thrust measurement of aircraft engines

The invention claimed is: 1. A method for determining a thrust force of an aircraft engine, wherein the aircraft engine is attached to an aircraft by a force transferring element of an engine mount with a known geometry, the force transferring element is provided with a plurality of strain gauges enabling determination of a strain state of the force transferring element, and a plurality of temperature sensors at least corresponding to the number of strain gauges is provided for measurement of a surface temperature, wherein in each case at least one of the plurality of temperature sensors is disposed adjacent to a respective one of the plurality of strain gauges, the method comprising: determining the surface temperature of the force transferring element in the vicinity of the strain gauges by the respective temperature sensors that are disposed in the immediate vicinity; determining a strain of the force transferring element at points at which the strain gauges are provided; determining the strain state of the force transferring elements based on the determined strain and compensating for temperature effects by taking into account the respective surface temperature determined in the immediate vicinity of the corresponding one of the strain gauges, wherein the compensation of the temperature effects takes into account both static and transient influences based on predetermined influences of temperature and temperature changes, wherein the static influences comprise a temperature response of the strain gauges, and wherein the transient influences comprise at least one of a variation of heating of the force transferring element over a cross-section thereof, a variation of heating of the force transferring element as a function of a variation of the ambient temperature over time, and a variation of the temperature response of the strain gauges as a function of the variation of the ambient temperature over time; and calculating the thrust force of the aircraft engine from the determined strain state. 2. The method according to claim 1 , wherein the determination of the strain state is carried out based on a mechanical calibration, during which a sensitivity of the strain gauges is determined by applying a known test force to the engine mount and/or the aircraft engine. 3. The method according to claim 1 , wherein a temperature-dependent change of material properties of a material of the force transferring element in the vicinity of the strain gauges, the temperature response of the strain gauges, and/or a change in sensitivity of the strain gauges are taken into account as at least part of the static influences during the compensation of the temperature effects. 4. The method according to claim 1 , wherein non-uniform heating of the force transferring element over a cross-section thereof, are taken into account as at least part of the transient influences during the compensation of the temperature effects. 5. The method according to claim 1 , wherein the determination of the strain state of the force transferring elements includes a compensation of secondary load paths. 6. The method according to claim 1 , wherein the strain gauges comprise strain gauge strips in a quarter, half, or full bridge arrangement. 7. The method according to claim 2 , wherein the mechanical calibration is the determination of the strain state carried out is based on is a previously performed mechanical calibration. 8. The method according to claim 1 , wherein the transient influences comprise a non-uniform heating of the engine mount over a cross section thereof. 9. The method according to claim 1 , wherein the transient influences comprise a variation of a temperature response of a strain measurement point as a function of a variation of the ambient temperature. 10. The method according to claim 1 , wherein the force-transferring element comprises a plurality of force-transferring elements. 11. An assembly for determining the thrust force of an aircraft engine, wherein the aircraft engine is fastened to an aircraft by force transferring elements of an engine mount with a known geometry, wherein the force transferring elements are provided with a plurality of strain gauges enabling a determination of a strain state of the force transferring elements, and plurality of temperature sensors at least corresponding to the number of strain gauges is provided for measurement of a surface temperature, wherein each of the temperature sensors is disposed immediately adjacent to a respective one of the strain gauges, wherein the plurality of strain gauges and the plurality of temperature sensors are connected to a detector configured to detect measurement results of the strain gauges and the temperature sensors, wherein the detector is connectable to an analysis unit that is configured to determine the thrust force of the aircraft engine by: determining the surface temperature of the force transferring elements in the vicinity of the strain gauges by the respective temperature sensors that are disposed in the immediate vicinity; determining a strain of the force transferring elements at points at which that the strain gauges are provided; determining the strain state of the force transferring elements based on the determined strain and compensating for temperature effects by taking into account the respective surface temperature determined in the immediate vicinity of the corresponding one of the strain gauges, wherein the compensation of the temperature effects takes into account both static and transient influences based on predetermined influences of temperature and temperature changes, wherein the static influences comprise a temperature response of the strain gauges, and wherein the transient influences comprise at least one of heating of the engine mount or the force-transferring elements over a cross-section thereof, and a variation of a temperature response of a strain gauge or a strain measurement point as a function of a variation of the ambient temperature over time; and calculating the thrust force of the aircraft engine from the determined strain state. 12. The assembly according to claim 11 , wherein the strain gauges comprise strain gauge strips in a quarter, half, or full bridge arrangement. 13. The assembly according to claim 11 , wherein the analysis unit is connected to a Data Management Unit of the aircraft and the determined thrust force is transmitted to the Data Management Unit in real time. 14. The assembly according to claim 11 , wherein the detection unit and/or the Data Management Unit of the aircraft that is connected thereto are designed to send the determined measurement results by means of an Aircraft Communication Addressing and Reporting System.