Hybrid loader boom arm assembly

What is claimed is: 1. A hybrid loader boom arm assembly for a loader work vehicle, the loader boom arm comprising: an arm assembly that includes: a hollow first beam formed from a lightweight material; a block formed from a second lightweight material, the block received within a first end of the first beam forming a vehicle mounting subassembly; at least one first steel reinforcing plate coupled to and outer wall of the first beam; at least one connecting plate coupled to the at least one first reinforcing plate, thereby disposing the first reinforcing plate between the at least one connecting plate and the outer wall of the first beam at an opposite second end of the first beam. 2. The loader boom arm of claim 1 , wherein the first beam has a third end opposite the first end, and the third end receives a second block formed from the second lightweight material. 3. The loader boom arm of claim 2 , wherein the second block defines a cross- bore and the loader boom arm further comprises a sleeve, the sleeve coupled to the cross-bore and configured to couple the arm assembly to the loader work vehicle. 4. The loader boom arm of claim 3 , further comprising a pair of lock plates coupled to opposed ends of the sleeve to retain the sleeve within the cross-bore at the third end of the first beam. 5. The loader boom arm of claim 4 , further comprising at least one second steel reinforcing plate, the at least one second steel reinforcing plate coupled to the third end of the first beam and at least one of the pair of lock plates is adjacent to the at least one second steel reinforcing plate. 6. The loader boom arm of claim 5 , wherein the at least one second steel reinforcing plate extends from the first end of the first beam to the third end of the first beam. 7. The loader boom arm of claim 5 , wherein the block has a second block end, the loader boom arm further comprising a hollow second beam formed from the lightweight material and at least one third steel reinforcing plate coupled to the second beam at the second end, the second block end received within a second end of the second beam to couple the second beam to the first beam, the second beam has a fourth end opposite the second end, and a third block formed from the second lightweight material is coupled within the fourth end. 8. The loader boom arm of claim 7 , wherein the third block defines a pair of opposed slots and a third bore, and the loader boom arm further comprises a bucket mount bracket, the bucket mount bracket coupled to each of the pair of opposed slots. 9. The loader boom arm of claim 8 , further comprising a hollow torque transfer tube, the torque transfer tube having a first tube end coupled to the third bore. 10. The loader boom arm of claim 9 , further comprising a second arm assembly, the second arm assembly including a second third block coupled within an end of a fourth beam, and a second tube end of the torque transfer tube is coupled to the second third block of the second arm assembly. 11. The loader boom arm of claim 1 , wherein the block includes at least one rib disposed on a perimeter of the block to align the block within the first end of the first beam. 12. The loader boom arm of claim 1 , wherein each of the blocks includes an insert that cooperates with an adhesive to couple each of the blocks within the respective first end. 13. The loader boom arm of claim 1 , wherein the first beam further comprises a hollow tube formed from a third lightweight material disposed over and coupled to the first beam. 14. The loader boom arm of claim 2 , wherein the first beam is formed to define a cylindrical interior channel for receiving the second block. 15. A hybrid loader boom arm assembly for a loader work vehicle, the loader boom arm comprising: an arm assembly that includes: a hollow first beam formed from a lightweight material; a hollow second beam formed from the lightweight material; a block formed from a second lightweight material, the block received within a first end of the first beam and received within a second end of the second beam, the block configured to couple the first beam to the second beam to form a vehicle mounting subassembly; at least one first steel reinforcing plate coupled to the first beam at the first end; at least one second steel reinforcing plate coupled to the second beam at the second end; and at least one connecting plate coupled to the at least one first reinforcing plate and the at least one second reinforcing plate, thereby disposing the first reinforcing plate between the at least one connecting plate and the outer wall of the first beam at an opposite second end of the first beam. 16. The loader boom arm of claim 15 , wherein the first beam has a third end opposite the first end, the third end receives a second block formed from the second lightweight material, the second block defines a cross-bore and the loader boom arm further comprises a sleeve, the sleeve coupled to the cross-bore and configured to couple the arm assembly to the loader work vehicle. 17. The loader boom arm of claim 16 , further comprising a pair of lock plates coupled to opposed ends of the sleeve to retain the sleeve within the cross-bore at the third end of the first beam. 18. The loader boom arm of claim 15 , wherein the second beam has a fourth end opposite the second end, and a third block formed from the second lightweight material is coupled within the fourth end. 19. The loader boom arm of claim 18 , wherein the third block defines a pair of opposed slots and a third bore, and the loader boom arm further comprises a bucket mount bracket, the bucket mount bracket coupled to each of the pair of opposed slots. 20. The loader boom arm of claim 19 , further comprising a hollow torque transfer tube and a second arm assembly, the torque transfer tube having a first tube end coupled to the third bore, the second arm assembly including a second third block coupled within an end of a fourth beam, and a second tube end of the torque transfer tube is coupled to the second third block of the second arm assembly.