Cold rolled steel sheet and a method of manufacturing thereof

What is claimed is: 1. A cold rolled heat treated steel sheet having a composition comprising the following elements, expressed in percentage by weight: 0.1%≤Carbon≤0.5% 1%≤Manganese≤3.4% 0.5%≤Silicon≤2.5% 0.03%≤Aluminum≤1.5% 0%≤Sulfur≤0.003%, 0.002%≤Phosphorus≤0.02% 0%≤Nitrogen≤0.01% and optionally containing one or more of the following elements 0.05%≤Chromium≤1% 0.001%≤Molybdenum≤0.5% 0.001%≤Niobium≤0.1% 0.001%≤Titanium≤0.1% 0.01%≤Copper≤2% 0.01%≤Nickel≤3% 0.0001%≤Calcium≤0.005% 0%≤Vanadium≤0.1% 0%≤Boron≤0.003% 0%≤Cerium≤0.1% 0%≤Magnesium≤0.010% 0%≤Zirconium≤0.010% a remainder being iron and unavoidable impurities caused by processing; a microstructure of the cold rolled heat treated steel sheet comprising in area fraction, 10 to 30% Residual Austenite, 50 to 85% Bainite, 1 to 20% Quenched Martensite, and less than 30% Tempered Martensite, the Bainite consisting of Lath Bainite and Granular Bainite. 2. The cold rolled heat treated steel sheet as recited in claim 1 wherein the composition includes 0.7% to 2.4% of Silicon. 3. The cold rolled heat treated steel sheet as recited in claim 1 wherein the composition includes 0.03% to 0.9% of Aluminum. 4. The cold rolled heat treated steel sheet as recited in claim 3 wherein the composition includes 0.03% to 0.6% of Aluminum. 5. The cold rolled heat treated steel sheet as recited in claim 1 wherein the composition includes 1.2% to 2.3% of Manganese. 6. The cold rolled heat treated steel sheet as recited in claim 1 wherein the composition includes 0.03% to 0.5% of Chromium. 7. The cold rolled heat treated steel sheet as recited in claim 1 wherein a sum of the Bainite and the Residual Austenite is equal to 70% or more. 8. The cold rolled heat treated steel sheet as recited in claim 1 wherein a sum of the Tempered Martensite, and the Quenched Martensite is more than or equal to 20% and the Quenched Martensite is higher than 10%. 9. The cold rolled heat treated steel sheet as recited in claim 1 wherein the cold rolled heat treated steel sheet has an ultimate tensile strength 1100 MPa, and a total elongation 14.0% or more. 10. The cold rolled heat treated steel sheet as recited in claim 9 wherein a yield strength to ultimate tensile strength ratio is greater than or equal to 0.65. 11. The cold rolled heat treated steel according to claim 1 , wherein said composition includes, in percentage by weight: 1.2%≤Manganese≤2.2%. 12. The cold rolled heat treated steel according to claim 1 , wherein said microstructure includes, in area fraction, less than 3% ferrite. 13. A method of production of the cold rolled heat treated steel sheet as recited in claim 1 comprising the following successive steps: providing semi-finished product having a steel composition comprising the following elements, expressed in percentage by weight: 0.1%<Carbon<0.5% 1%<Manganese<3.4% 0.5%<Silicon<2.5% 0.03%<Aluminum<1.5% 0%<Sulfur<0.003% 0.002%<Phosphorus<0.02% 0%<Nitrogen<0.01% and optionally containing one or more of the following elements 0.05%<Chromium<1% 0.001%<Molybdenum<0.5% 0.001%<Niobium<0.1% 0.001%<Titanium<0.1% 0.01%<Copper<2% 0.01%<Nickel<3% 0.001%<Calcium<0.005% 0%<Vanadium<0.1% 0%<Boron<0.003% 0%<Cerium<0.1% 0%<Magnesium<0.010% 0%<Zirconium<0.010% a remainder being iron and unavoidable impurities caused by processing; reheating the semi-finished product to a temperature between 1200° C. and 1280° C.; rolling the semi-finished product in an austenitic range wherein the hot rolling finishing temperature is above Ac3 to obtain a hot rolled steel sheet; cooling the hot rolled steel sheet at a cooling rate above 30° C./s to a coiling temperature below 600° C. and coiling the hot rolled steel sheet; cooling the hot rolled steel sheet to room temperature; optionally performing a scale removal process on the hot rolled steel sheet; optionally annealing the hot rolled steel sheet at temperature between 400° C. and 750° C.; optionally performing a scale removal process on the hot rolled steel sheet; cold rolling the hot rolled steel sheet with a reduction rate between 35 and 90% to obtain a cold rolled steel sheet; heating the cold rolled steel sheet at a rate greater than 3° C./s to a soaking temperature between Ac3 and Ac3+100° C. and holding the cold rolled steel sheet for a time of 10 to 500 seconds; cooling the cold rolled steel sheet at a rate greater than 20° C./s to a temperature below 500° C. to define an annealed cold rolled steel sheet; cooling the annealed cold rolled steel sheet to room temperature; optionally tempering the annealed cold rolled steel sheet between 120° C. and 250° C.; heating the annealed cold rolled steel sheet at a rate greater than 3° C./s to a soaking temperature between Ac3 and Ac3+100° C. and holding the annealed cold rolled steel sheet of 10 to 500 seconds; cooling the annealed cold rolled steel sheet at a rate greater than 20° C./s to a temperature range between T Cmax and T Cmin wherein: T Cmax =565−601*(1−Exp(−0.868*C))−34*Mn−13*Si−10*Cr+13*Al−361*Nb T Cmin =535−601*(1−Exp(−0.868*C))−34*Mn−13*Si−10*Cr+13*AI−361*Nb; and bringing the annealed cold rolled steel sheet to a holding temperature range between 350° C. and 550° C. for a time period between 5 and 500 seconds and then cooling the annealed cold rolled steel sheet to room temperature with a cooling rate of at least 1° C./s to obtain the cold rolled heat treated steel sheet; and optionally coating the cold rolled heat treated steel sheet; thereby producing the cold rolled heat treated steel sheet of claim 1 . 14. The method as recited in claim 13 wherein the coiling temperature is below 570° C. 15. The method as recited in claim 13 wherein the soaking temperature for first or second annealing is between Ac3 and Ac3+50° C. 16. The method as recited in claim 13 wherein the cooling of the cold rolled steel sheet or the cooling of the annealed cold rolled steel sheet is greater than to a temperature below 500° C. 17. A structural or safety part of a vehicle made according to the method as recited in claim 13 . 18. The part as recited in claim 17 wherein the part is obtained by flexible rolling of the cold rolled heat treated steel sheet. 19. A vehicle comprising the part as recited in claim 17 . 20. A structural or safety part of a vehicle comprising the cold rolled and heat treated steel sheet as recited in claim 1 . 21. The part as recited in claim 20 wherein the part is obtained by flexible rolling of the cold rolled and heat treated steel sheet. 22. A vehicle comprising the part as recited in claim 20 .