Spot welded joint using high strength and high forming steel and its production method

What is claimed is: 1. A spot welded joint for connecting at least two steel sheets, comprising: a spot welded joint; and at least one sheet connected to the spot welded joint; the at least one sheet made of an aluminium alloyed steel comprising, by weight percent: 0.05≤C≤0.21%; 4.0≤Mn≤7.0%; 0.5≤Al≤3.5%; Si≤2.0%; Ti≤0.2%; V≤0.2%; Nb≤0.2%; P≤0.025%; B≤0.0035%; and S≤0.004%; a balance of the composition being iron and unavoidable impurities resulting from smelting; the at least one aluminium alloyed steel sheet having: a yield strength above or equal to 600 MPa; an ultimate tensile strength above or equal to 1000 MPa; and uniform elongation above or equal to 15%; a microstructure of the at least one aluminium alloyed steel sheet including from 20% to 50% of austenite, from 40% to 80% of annealed ferrite and less than 25% of martensite; and the spot welded joint including: a molten zone microstructure including more than 0.5% of Al; and a surface fraction of segregated areas lower than 1%, the segregated areas being zones larger than 20 μm 2 and including an amount of phosphorous greater than an aluminium alloyed steel nominal phosphorus content. 2. The spot welded joint according to claim 1 , wherein the aluminium alloyed steel chemical composition has an aluminum content such that: 1.0≤Al≤3.0%. 3. The spot welded joint according to claim 2 , wherein the aluminium alloyed steel chemical composition has an aluminium content such that: 1.0≤Al≤2.5%. 4. The spot welded joint according to claim 1 , wherein the aluminium alloyed steel chemical composition has a silicon content such that: Si≤1.5%. 5. The spot welded joint according to claim 4 , wherein the aluminium alloyed steel chemical composition has a silicon content such that: Si≤1.0%. 6. The spot welded joint according to claim 1 , wherein the aluminium alloyed steel microstructure includes between 50% and 70% of annealed ferrite. 7. The spot welded joint according to claim 1 , wherein the aluminium alloyed steel microstructure includes less than 20% of martensite. 8. The spot welded joint according to claim 1 , wherein the spot welded joint includes iron carbides larger than 50 nm having a density equal to or greater than 2×10 6 per mm 2 and the microstructure at a boundary between the molten zone and the aluminium alloyed steel does not have martensite 18R with orthorhombic needle-like phase inside the ferritic grains. 9. An assembly of two steel sheets comprising: a spot welded joint according to claim 1 ; and at least two steel sheets joined by the spot welded joint. 10. A structural part comprising: an assembly of two steel sheets according to claim 9 . 11. A vehicle comprising: an assembly according claim 9 . 12. A structural part comprising: a spot welded joint according to claim 1 . 13. A vehicle comprising: a spot welded joint according to claim 1 . 14. A method to produce a spot welded joint of at least two steel sheets, comprising the following steps: casting an aluminium alloyed steel so as to obtain a slab, a composition of the aluminium alloyed steel comprising, by weight percent: 0.05≤C≤0.21%; 4.0≤Mn≤7.0%; 0.5≤Al≤3.5%; Si≤2.0%; Ti≤0.2%; V≤0.2%; Nb≤0.2%; P≤0.025%; B≤0.0035%; and S≤0.004%; a balance of the composition being iron and unavoidable impurities resulting from smelting; reheating the slab at a temperature T reheat between 1150° C. and 1300° C.; hot rolling the reheated slab with a temperature between 800 ° C. and 1250 ° C. to obtain a hot rolled steel, a last hot rolling pass taking place at a temperature T lp greater than or equal to 800° C.; cooling the hot rolled steel between 1 and 150° C/s until a coiling temperature T coiling less than or equal to 650° C. is reached; then coiling the hot rolled steel cooled at T coiling ; de-scaling; cold rolling with a cold rolling ratio between 30% and 70% so as to obtain a cold rolled steel sheet; heating at a heating rate H rate at least equal to 1° C./s up to an annealing temperature T anneal ; annealing at the annealing temperature T anneal between T min and T max defined by: T min =721−36*C−20*Mn+37*Al+2*Si(in ° C.), and T max =690+145*C−6.7*Mn+46*Al+9*Si(in ° C.), during a time between 30 and 700 seconds; cooling down to a targeted temperature at a cooling rate between 5° C./s and 70° C./s; cutting the cold rolled steel into sheets to obtain cold rolled steel sheets; welding at least one of the cold rolled steel sheets to another metal with an effective intensity between 3 kA and 15 kA and a force applied on the electrodes between 150 and 850 daN, an electrode active face diameter being between 4 and 10 mm. 15. The method to produce a spot welded joint according to claim 14 , wherein the steps are performed successively. 16. The method to produce a spot welded joint according to claim 14 , wherein the hot rolled steel sheet is batch annealed between 400° C. and 600° C. between 1 and 24 hours. 17. The method to produce a spot welded joint according to claim 14 , wherein the hot rolled steel sheet is continuously annealed between 650° C. and 750° C. between 20 and 180 s. 18. The method to produce a spot welded joint according to claim 14 , wherein the casting is done using a thin slab casting machine to obtain the hot rolled steel sheet. 19. The method to produce a spot welded joint according to claim 14 , wherein the targeted temperature is a temperature T OA between 350° C. and 550° C. and kept at T OA for a time between 10 and 300 seconds. 20. The method to produce a spot welded joint according to claim 14 , wherein the steel sheet is further cooled down to room temperature at a cooling rate V cooling3 above 5° C./s and below 70° C./s to obtain a cold rolled and annealed sheet. 21. The method to produce a spot welded joint according to claim 14 , further comprising the step of: tempering the steel sheet at a temperature T temper between 170 and 400° C. for a time t temper between 200 and 800 s. 22. The method to produce a spot welded joint according to claim 14 , further comprising the step of: coating the cold rolled steel sheet with Zn or a Zn alloy, after the step of annealing. 23. The method to produce a spot welded joint according claim 14 , further comprising: coating the cold rolled steel sheet with Al or an Al alloy, after the step of annealing. 24. The method to produce a spot welded joint according to claim 14 , further comprising the step of: applying a post thermal treatment with an intensity between 60% and 90% of welding intensity for a time between 0.1 and 2 seconds. 25. The method to produce a spot welded joint according to claim 14 , wherein the spot welded joint comprises: a molten zone microstructure including more than 0.5% of Al; and a surface fraction of segregated areas lower than 1%, the segregated areas being zones larger than 20 μm 2 and including an amount of phosphorous greater than an aluminium alloyed steel nominal phosphorus content. 26. A spot welded joint manufactured by the process according to claim 14 .