Hybrid metal fan blade

What is claimed is: 1. A fan blade comprising: an airfoil portion formed from a first metallic material, having a forward airfoil edge, a first airfoil surface, and a second airfoil surface; and a sheath portion formed from a second metallic material, the sheath portion having a sheath head section, a first sheath flank and a second sheath flank, both flanks extending chordwise rearwardly from the sheath head section; wherein the sheath portion is bonded to the airfoil portion such that the sheath head section covers the forward airfoil edge to define a blade leading edge; the first sheath flank covers a portion of the first airfoil surface proximate the forward airfoil edge, jointly defining a blade suction surface; and the second sheath flank covers a portion of the second airfoil surface proximate the forward airfoil edge, jointly defining a blade pressure surface opposite the blade suction surface; wherein a chordwise dimension of the sheath head section is at least 3% of a chordwise blade dimension in an inner span region, and at least 8% of a chordwise blade dimension in a distal span region; and wherein the first metallic material is an aluminum alloy containing between about 0.5 wt % and about 3.0 wt % of lithium. 2. The blade of claim 1 , wherein the aluminum alloy contains between about 1.0 wt % and about 2.5 wt % of lithium. 3. The blade of claim 2 , wherein the aluminum alloy contains between about 1.5 wt % and about 2.0 wt % of lithium. 4. The blade of claim 1 , wherein the second metallic material is a titanium alloy. 5. The blade of claim 4 , wherein the titanium alloy is a Ti-6A1-4V alloy. 6. The blade of claim 1 , wherein the sheath portion is adhesively bonded to the airfoil portion with an epoxy film. 7. The blade of claim 6 , wherein the blade further comprises a dielectrically protective scrim sheet disposed between layers of adhesive film. 8. The blade of claim 1 , wherein the airfoil contains at least one internal cavity. 9. A fan blade comprising: a root; an airfoil connected to the root and formed from a first metallic material having first and second major surfaces, an internal cavity with an opening in the first major surface, a socket around the opening, a cover received in the socket and covering the opening; an adhesive bond between the cover and the socket; and a sheath portion formed from a second metallic material, the sheath portion having a sheath head section, a first sheath flank and a second sheath flank, both flanks extending chordwise rearwardly from the sheath head section; wherein a chordwise dimension of the sheath head section is at least 3% of a chordwise blade dimension in an inner span region, and at least 8% of a chordwise blade dimension in a distal span region; wherein the first metallic material is an aluminum alloy containing between about 0.5 wt % and about 3.0 wt % of lithium. 10. The blade of claim 9 , wherein the aluminum alloy contains between about 1.0 wt % and about 2.5 wt % of lithium. 11. The blade of claim 10 , wherein the aluminum alloy contains between about 1.5 wt % and about 2.0 wt % of lithium. 12. The blade of claim 11 , further comprising a filler material disposed within the cavity between a portion of the cover and the second major surface. 13. The blade of claim 12 , further comprising an adhesive bond between the cover and the filler material. 14. The blade of claim 11 , wherein the adhesive used to form the adhesive bond comprises polyurethane for providing force damping between the cover and the airfoil. 15. The blade of claim 11 , further comprising a plurality of ribs disposed within the cavity extending in the blade thickness direction between the cover and the second major surface. 16. The blade of claim 9 , wherein the sheath portion is bonded to the airfoil portion such that the sheath head section covers the forward airfoil edge to define a blade leading edge; the first sheath flank covers a portion of the first airfoil surface proximate the airfoil forward edge, jointly defining a blade suction surface; and the second sheath flank covers a portion of the second airfoil surface proximate the airfoil forward edge, jointly defining a blade pressure surface opposite the blade suction surface. 17. A gas turbine engine comprising: a turbine section; a compressor section rotatably driven by the turbine section; and a fan section rotatably driven by the turbine section, the fan section including a plurality of blades disposed circumferentially around a rotor disc, each blade having at least a root, an airfoil portion, and a sheath portion, the airfoil formed from a first metallic material and extending spanwise from the root, and the sheath portion formed from a second metallic material, the sheath portion having a sheath head section, a first sheath flank, and a second sheath flank, both flanks extending chordwise rearwardly from the sheath head section, the sheath portion bonded to the airfoil portion such that the sheath head section covers a forward airfoil edge to define a blade leading edge; wherein the first sheath flank covers a portion of a first airfoil surface proximate the forward airfoil edge, jointly defining a blade suction surface; and the second sheath flank covers a portion of a second airfoil surface proximate the forward airfoil edge, jointly defining a blade pressure surface opposite the blade suction surface; wherein a chordwise dimension of the sheath head section is at least 3% of a chordwise blade dimension in an inner span region, and at least 8% of a chordwise blade dimension in a distal span region; and wherein the first metallic material is an aluminum alloy containing between about 0.5 wt % and about 3.0 wt % of lithium. 18. The gas turbine engine of claim 17 , wherein the plurality of fan blades include at least one internal cavity. 19. The gas turbine engine of claim 18 , wherein the at least one internal cavity is defined by an opening in a first major surface of the airfoil, a socket around the opening, and a cover adhesively bonded to at least the socket for covering the opening. 20. The gas turbine engine of claim 17 , wherein the fan section is rotatably driven by the turbine section via a fan drive gear system disposed therebetween.