Multi-material assembly and methods of making thereof

What is claimed is: 1. A method of making a multi-material assembly comprising: providing an elongated frame member having a length, the elongated frame member being formed by hot-stamping a steel blank coated with an AlSi alloy coating, wherein the elongated frame member includes a body, a first leg and a second leg, the first leg including a first end connected to the body and a second end extending outward from the body, wherein the first end and the second end extend along the length of the elongated frame member and the second end defines a portion of a perimeter of the elongated frame member; treating an interior surface of the first leg to form a first uncoated portion that has a length that extends along the length of the elongated frame member and is positioned inward of the portion of the perimeter of the elongated frame member defined by the second end, wherein the first uncoated portion is positioned between the first end and the second end of the first leg, wherein the first leg extending from the first end to the first uncoated portion remains coated, and the first leg extending from the first uncoated portion to the second end remains coated; providing a reinforcement member including at least a first foot, wherein the reinforcement member comprises a material that is dissimilar from the elongated frame member; applying an adhesive to the first foot of the reinforcement member or the first uncoated portion of the first leg; positioning the reinforcement member between the first leg and the second leg with the first foot positioned opposite the first uncoated portion with the adhesive positioned therebetween; and curing the adhesive to secure the first foot to the first uncoated portion. 2. The method of claim 1 , further comprising: treating the second leg to form a second uncoated portion; and applying a second adhesive to a second foot of the reinforcement member or the second uncoated portion, wherein positioning the reinforcement member between the first leg and the second leg includes positioning the second foot opposite the second uncoated portion with the second adhesive positioned therebetween, and wherein a step of curing the second adhesive secures the second foot to the second uncoated portion. 3. The method of claim 1 , wherein the first leg is treated to remove at least 25 microns of the AlSi alloy coating to form the first uncoated portion. 4. The method of claim 3 , wherein the first uncoated portion is recessed from the AlSi alloy coating. 5. The method of claim 1 , wherein the first foot comprises a width that is less than a width of the first uncoated portion, and wherein an entire width of the first foot is positioned opposite the first uncoated portion. 6. The method of claim 5 , wherein the step of providing an elongated frame member comprises hot-stamping the steel blank to form the elongated frame member, and wherein the method further comprises: positioning an inner frame member opposite the elongated frame member to define a chamber therebetween, wherein the reinforcement member is positioned in the chamber, wherein a first mating flange of the inner frame member is positioned opposite a first mating flange of the elongated frame member that is positioned on the second end of the first leg outward from the first uncoated portion, and a second mating flange of the inner frame member is positioned opposite a second mating flange of the elongated frame member; welding the first mating flange of the inner frame member to the first mating flange of the elongated frame member, and welding the second mating flange of the inner frame member to the second mating flange of the elongated frame member to form a welded assembly; e-coating the welded assembly; and heating the welded assembly to cure the adhesive to secure the first foot to the first uncoated portion. 7. The method of claim 5 , wherein the cured adhesive positioned between the first foot and the first uncoated portion is positioned entirely within the width of the first uncoated portion. 8. The method of claim 1 , wherein the first uncoated portion comprises a width and the adhesive positioned between the first foot and the first uncoated portion comprises a width, and at least 95% of the width of the adhesive positioned between the first foot and the first uncoated portion is positioned within the width of the first uncoated portion. 9. The method of claim 1 , further comprising: providing an inner frame member including a first mating flange and a second mating flange; and positioning the inner frame member opposite the elongated frame member to define a chamber therebetween, wherein the reinforcement member is positioned in the chamber, wherein the first mating flange of the inner frame member is positioned opposite a first mating flange of the elongated frame member that is positioned on the second end of the first leg outward from the first uncoated portion, and the second mating flange of the inner frame member is positioned opposite a second mating flange of the elongated frame member, wherein the step of positioning the inner frame member opposite the elongated frame member occurs after positioning the reinforcement member between the first leg and the second leg of the elongated frame member and before curing the adhesive.