Hot rolling method

The invention claimed is: 1. A method for the regulation of at least one parameter (α) of a hot rolling process of a semi-finished metal product in at least one rolling mill stand having at least two work rolls, the regulation method comprises the steps of: calculating a forward slip ratio (FWS) by means of the following equation: FWS = | v exit - v stand | v stand where v exit is a speed of the semi-finished product at an exit of a respective stand and v stand is a linear velocity of two work rolls; calculating an estimated coefficient of friction (μ real ) as a function of a measured value of a screwdown force (F) of the two work rolls in the stand and of the forward slip ratio (FWS) calculated previously; and regulating the at least one parameter (α) based on the calculated estimated coefficient of friction (μ real ); and wherein during the step of calculating the estimated coefficient of friction (μ real ), a target value of the coefficient of friction (μ target ) is predetermined, and the coefficient of friction (μ real ) is calculated in real time; during the regulating step, when |μ target −μ real | is greater than a predetermined value (Δ), the corresponding at least one parameter (α) is adjusted so that |μ target −μ real | becomes less than or equal to the predetermined value (Δ). 2. The regulation method according to claim 1 , further comprising, before the calculation of the forward slip ratio, the step of: measuring a speed of the semi-finished product at the exit (v exit ) from the stand, a time between the measurement of (v exit ) and the calculation of the coefficient of friction (μ real ) being less than or equal to 100 ms. 3. The regulation method according to claim 2 , wherein the time between the measurement of v exit and the calculation of μ real is less than or equal to 50 ms. 4. The regulation method according claim 1 , wherein the time between the measurement of v exit and the regulation of the at least one parameter (α) is less than or equal to 500 ms. 5. The regulation method according to claim 1 , further comprising, subsequent to the step of the regulation of the at least one parameter (α), a correction step comprising: regulating the screwdown force F as a function of the calculated values of the forward slip ratio (FWS) and of the coefficient of friction (μ real ). 6. The regulation method according to claim 1 , further comprising, subsequent to the step of the regulation of at least one parameter (α), a tension correction step comprising: regulating an entry tension (σ entry ) and an exit tension (σ exit ) of the strip as a function of the calculated values of the forward slip ratio (FWS) and of the coefficient of friction (μ real ). 7. A method for hot rolling a semi-finished metal product in at least one rolling mill stand having at least two work rolls comprising the step of: hot rolling a semi-finished metal product in at least one rolling mill stand having at least two work rolls; and regulating the at least one parameter (α) according to regulation method of claim 1 . 8. The rolling method according to claim 7 , wherein a lubricating emulsion composed of oil and water is injected at a level of a gap between the two work rolls and wherein the at least one parameter (α) is an injection flow of the oil (Q oil ). 9. The rolling method according to claim 7 , wherein the rolled metal semi-finished product is an aluminum strip. 10. The rolling method according to claim 7 , wherein the rolled metal semi-finished product is a steel strip. 11. The rolling method according to claim 10 , wherein the rolled steel strip is a Very High Strength or Ultra High Strength steel strip. 12. The rolling method according to claim 10 , wherein the rolled steel strip has a thickness at the end of rolling of 3 mm or less. 13. A hot rolling mill comprising: at least one rolling mill stand having at least two work rolls; a processing unit configured to regulate the at least one parameter according to the regulating step of claim 7 . 14. The hot rolling mill according to claim 13 , further comprising: a laser velocimeter for measuring the speed of the semi-finished product v exit at the exit from the rolling mill stand. 15. Computer readable media, having stored thereon, computer executable instructions for performing a method comprising the regulation method of claim 1 .