Method for operating a Coriolis mass flowmeter

What is claimed is: 1. A method for operating a Coriolis mass flowmeter, wherein the Coriolis mass flowmeter has at least one measuring tube with medium flowing through it, and an electronic control and evaluation unit for controlling the measuring tube with a control signal and for setting excitation frequencies, the method comprising in an operation mode of the Coriolis mass flow meter: exciting the at least one measuring tube to oscillation in at least one frequency and/or in at least one eigenform, using oscillation sensors for detecting oscillations of the measuring tube, and using the electronic control and evaluation unit for determining a density of the medium by evaluating the detected oscillations, wherein: at a calibration temperature, a calibration density sensitivity of the Coriolis mass flowmeter is determined by the electronic control and evaluation unit using oscillations of the measuring tube detected by the oscillation sensors, at a temperature that differs from the calibration temperature and which is independent of the detected oscillations of the measuring tube, a density sensitivity of the Coriolis mass flowmeter is determined by the electronic control and evaluation unit using the oscillations of the measuring tube detected by the oscillation sensors, a measurement rate of change of density sensitivity is determined by the electronic control and evaluation unit using the calibration density sensitivity determined using the detected oscillations and the density sensitivity at the temperature, a forecast rate of change of the density sensitivity is calculated by the control and evaluation unit using a forecast algorithm which is dependent on the temperature, and at a given deviation of the measurement rate of change from the forecast rate of change, exceeds a certain threshold, a deviation signal is generated by the electronic control and evaluation unit which indicates an unwanted change in a dynamic system behavior of the Coriolis mass flowmeter due to a structural change of the measuring tube due to at least one of wear of the measuring tube or deposition of material in the measuring tube. 2. A method according to claim 1 , wherein the measurement rate of change is determined by formation of a quotient from the density sensitivity determined at the temperature and from the density sensitivity determined at the calibration temperature using the electronic control and evaluation unit. 3. A method according to claim 1 , wherein the density sensitivity is determined by means of a mathematical model of the Coriolis mass flowmeter of at least second order in that the measuring tube is excited to oscillation in a first eigenform at an eigenfrequency of the first eigenform and at two additional frequencies. 4. A method according to claim 1 , wherein the forecast algorithm for the forecast rate of change is a polynomial of a temperature difference of the temperature from the calibration temperature. 5. A method according to claim 4 , wherein a factor of a linear member of the temperature difference is determined by determining at least two density sensitivities at at least two different temperatures, of which one temperature is the calibration temperature. 6. A method according to claim 1 , wherein the method is carried out in a test mode, in which the measuring tube is excited to oscillation with an amplitude that is less than in the measurement operating mode. 7. A method according to claim 1 , wherein evaluation of the oscillation of the measuring tube in a second eigenform takes place simultaneously with determination of the mass flow through the measuring tube. 8. A method according to claim 1 , wherein at least one of the method steps of determining the calibration density sensitivity, determining the density sensitivity at a temperature differing from the calibration temperature, determining the measurement rate of change of the density sensitivity, determining the forecast rate of change of the density sensitivity using a forecast algorithm, and generating of a deviation signal is carried out in a test mode using a test device attached to the Coriolis mass flowmeter, the test mode being performable simultaneously with the operational mode. 9. A method according to claim 1 , wherein determining the calibration density sensitivity and determining the forecast algorithm for the forecast rate of change are carried out during factory calibration of the Coriolis mass flowmeter.