Method for producing an inner automotive structural part comprising localized reinforced areas

The invention claimed is: 1. A method for producing an inner automotive structural part of a vehicle comprising an inner upper front pillar, an inner center pillar and an inner side rail extending between the inner upper front pillar and an upper end of the inner center pillar, said method comprising the steps of: providing an inner upper front pillar blank, an inner center pillar blank and an inner side rail blank, hot stamping the inner upper front pillar blank to form the inner upper front pillar, hot stamping the inner center pillar blank to form the inner center pillar, hot stamping the inner side rail blank to form the inner side rail, assembling the inner upper front pillar and the inner center pillar to the inner side rail to obtain the inner automotive structural part, wherein the method comprises, prior the hot stamping steps, the steps of: attaching an inner upper front pillar reinforcement blank to a localized part of the inner upper front pillar blank, said inner upper front pillar reinforcement blank being hot stamped together with the inner upper front pillar blank such that the inner upper front pillar comprises a localized reinforced area having an increased thickness relative to the inner upper front pillar outside said localized reinforced area, attaching an inner center pillar reinforcement blank to a localized part of the inner center pillar blank, said inner center pillar reinforcement blank being hot stamped together with the inner center pillar blank such that the inner center pillar comprises a localized reinforced area having an increased thickness relative to the inner center pillar outside said localized reinforced area, a shape of the inner center pillar reinforcement blank and a shape of the inner center pillar blank corresponding to each other in the localized reinforced area after hot stamping, the inner center pillar reinforcement blank being attached to a central part of the inner center pillar blank, said central part being spaced from an upper end of the inner center pillar blank, the inner front pillar reinforcement blank being attached to an upper end of the inner front pillar blank, the localized reinforced area of the inner center pillar and the localized reinforced area of the inner front pillar extending at a same height in an elevation direction of the vehicle. 2. The method according to claim 1 , wherein the inner upper front pillar blank and the inner side rail blank are made of a single part, said inner upper front pillar and inner side rail blank being hot stamped in a single step together with the inner upper front pillar reinforcement blank. 3. The method according to claim 1 , wherein the inner upper front pillar reinforcement blank and the inner center pillar reinforcement blank are attached to the inner upper front pillar blank and to the inner center pillar blank by a resistance spot welding or laser welding step. 4. The method according to claim 1 , wherein the inner center pillar is attached to the inner side rail by a laser welding step. 5. The method according to claim 1 , wherein the inner upper front pillar, the inner center pillar and the inner side rail are each made of a press hardened steel part having a tensile strength greater than 1200 MPa. 6. The method according to claim 4 , wherein the composition of the press hardened steel comprises in % weight: 0.15%≤C≤0.5%, 0.5%≤Mn≤3%, 0.1%≤Si≤1%, 0.005%≤Cr≤1%, Ti≤0.2%, Al≤0.1%, S≤0.05%, P≤0.1%, B≤0.010%, the remainder being iron and unavoidable impurities resulting from the elaboration; or 0.20%≤C≤0.25%, 1.1%≤Mn≤1.4%, 0.15%≤Si≤0.35%, Cr≤0.30%, 0.020%≤Ti≤0.060%, 0.020%≤Al≤0.060%, S≤0.005%, P≤0.025%, 0.002%≤B≤0.004%, the remainder being iron and unavoidable impurities resulting from the elaboration; or 0.24%≤C≤0.38%, 0.40%≤Mn≤3%, 0.10%≤Si≤0.70%, 0.015%≤Al≤0.070%, Cr≤2%, 0.25%≤Ni≤2%, 0.015%≤Ti≤0.10%, Nb≤0.060%, 0.0005%≤B≤0.0040%, 0.003%≤N≤0.010%, S≤0.005%, P≤0.025%, %, the remainder being iron and unavoidable impurities resulting from the elaboration. 7. The method according to claim 1 , wherein the inner upper front pillar blank, the inner center pillar blank, the inner upper front pillar reinforcement blank and the inner center pillar reinforcement blank have a structure consisting essentially of ferrite and pearlite before said blanks are hot stamped, the inner upper front pillar and the inner center pillar having a structure including 95% or more of martensite after hot stamping. 8. The method according to claim 1 , wherein the inner upper front pillar blank and the inner center pillar blank have each a thickness comprised between 0.7 and 1.5 mm and the inner upper front pillar reinforcement blank and the inner center pillar reinforcement blank have each a thickness comprised between 0.5 and 1.5 mm. 9. A method for producing an inner automotive structural part of a vehicle comprising an inner upper front pillar, an inner center pillar and an inner side rail extending between the inner upper front pillar and an upper end of the inner center pillar, said method comprising the steps of: providing an inner upper front pillar blank, an inner center pillar blank and an inner side rail blank, hot stamping the inner upper front pillar blank to form the inner upper front pillar, hot stamping the inner center pillar blank to form the inner center pillar, hot stamping the inner side rail blank to form the inner side rail, assembling the inner upper front pillar and the inner center pillar to the inner side rail to obtain the inner automotive structural part, wherein the method comprises, prior the hot stamping steps, the steps of: attaching an inner upper front pillar reinforcement blank to a localized part of the inner upper front pillar blank, said inner upper front pillar reinforcement blank being hot stamped together with the inner upper front pillar blank such that the inner upper front pillar comprises a localized reinforced area having an increased thickness relative to the inner upper front pillar outside said localized reinforced area, attaching an inner center pillar reinforcement blank to a localized part of the inner center pillar blank, said inner center pillar reinforcement blank being hot stamped together with the inner center pillar blank such that the inner center pillar comprises a localized reinforced area having an increased thickness relative to the inner center pillar outside said localized reinforced area, the localized reinforced area of the inner upper front pillar extending in the upper end of the inner upper front pillar at a junction between the inner upper front pillar and the inner side rail, the inner center pillar reinforcement blank being attached to a central part of the inner center pillar blank, said central part being spaced from an upper end of the inner center pillar blank, the inner front pillar reinforcement blank being attached to an upper end of the inner front pillar blank, the localized reinforced area of the inner center pillar and the localized reinforced area of the inner front pillar extending at a same height in an elevation direction of the vehicle. 10. A method for producing an automotive structural part comprising an upper front pillar, a center pillar and a side rail extending between an upper end of the upper front pillar and an upper end of the center pillar, said method comprising the steps of: producing an inner automotive structural part according to claim 1 , producing an outer automotive structural part by attaching an outer upper front pillar and an outer center pillar to an outer side rail, attaching the inner automotive structural part to the outer automotive structural part to form the automotive structural part. 11