Process for manufacturing cold-rolled and annealed steel sheet with a very high strength, and sheet thus produced

What is claimed is: 1. A process for manufacturing a cold-rolled steel sheet with a strength of at least 1200 Mpa and an elongation at break greater than 10%, the process comprising: providing a steel having a composition comprising, in weight percent: 0.10%≤C≤0.25%; 1%≤Mn≤3%; Al≥0.010%; Si≤2.990%; S≤0.015%; P≤0.1%; N≤0.008%; Mo<0.005%; Cr<0.005%; and B=0%, a remainder of the composition consisting of iron and inevitable impurities resulting from smelting; then casting a semifinished product from said steel; then heating said semifinished product to a temperature greater than 1150° C.; then hot-rolling said semifinished product to obtain a hot-rolled sheet; then coiling said sheet; then pickling said hot-rolled sheet; then cold-rolling said sheet with a reduction ratio of between 30 and 80% so as to obtain a cold-rolled sheet; and then reheating said cold-rolled sheet at a rate V c between 5 and 15° C./s up to a temperature T 1 between Ac3 and Ac3+20° C., and holding at said temperature T 1 for a time t 1 between 50 and 150 s, then cooling said sheet at a rate V R1 greater than 40° C./s but below 100° C./s down to a temperature T 2 between (M s −30° C. and M s +30° C.), maintaining said sheet at said temperature T 2 for a time t 2 between 150 and 350 s, and then cooling said sheet at a rate V R2 of less than 30° C./s down to an ambient temperature; the steel having a microstructure comprising 65 to 90% bainite, a remainder of the microstructure consisting of islands of martensite and residual austenite. 2. The manufacturing process of claim 1 , wherein the temperature T 1 is between Ac3+10° C. and Ac3+20° C. 3. The manufacturing process of claim 1 , wherein Si is 1.5%. 4. The manufacturing process of claim 3 , wherein Al is 0.04%. 5. The manufacturing process of claim 1 , wherein the temperature T 2 is less than M s . 6. The manufacturing process of claim 1 , wherein the islands of martensite are tempered during the cooling said sheet at the rate V R2 to form tempered martensite. 7. The manufacturing process of claim 1 , wherein C is 0.19%. 8. The manufacturing process of claim 1 , wherein Mn is 2.0%. 9. The manufacturing process of claim 1 , wherein C is 0.19%, Mn is 2.0%, Si is 1.5% and Al is 0.04%. 10. The manufacturing process of claim 1 , wherein an average size of said islands of martensite and residual austenite is less than 1 micron. 11. The manufacturing process of claim 10 , wherein an average distance between said islands of martensite and residual austenite is less than 6 microns. 12. The manufacturing process of claim 1 , wherein an average distance between said islands of martensite and residual austenite is less than 6 microns.