Hybrid loader boom arm assembly

What is claimed is: 1. A hybrid loader boom arm assembly kit for a loader work vehicle, the kit comprising: a hollow first beam formed from a first material having a lower density than steel, the first beam comprising a first end and a second end, and comprising a first through bore disposed proximate the first end; a block formed from a second material having a lower density than steel, the block comprising a through bore, and the through bore portion of the block is configured to be operably disposed inside the first beam aligning the block bore with the first beam first through bore; at least one first steel reinforcing plate configured to couple to the first beam; and at least one connecting plate configured to couple to the at least one first reinforcing plate. 2. The kit of claim 1 , further comprising an angled block formed from the second material, the second block defining a cross-bore and configured to be coupled to the first beam at the second end. 3. The kit of claim 2 , further comprising a sleeve configured to be coupled to the cross-bore. 4. The kit of claim 3 , further comprising a pair of lock plates configured to retain the sleeve within the cross-bore. 5. The kit of claim 4 , further comprising at least one second steel reinforcing plate configured to be coupled to the first beam. 6. The kit of claim 1 , further comprising: a hollow second beam formed from the first material; at least one third steel reinforcing plate configured to couple to the second beam; and a second block formed from the second material that defines a pair of opposed slots and a third bore, the second block configured to be coupled to the second beam at a fourth end. 7. The kit of claim 6 , further comprising a bucket mount bracket configured to be coupled to the second block. 8. The kit of claim 7 , further comprising a hollow torque transfer tube, the torque transfer tube having a first tube end configured to be coupled to the second block. 9. The kit of claim 8 , further comprising a second arm assembly that includes a third block, and the torque transfer tube is configured to be coupled to the third block. 10. A method of assembling a hybrid loader boom arm for a loader work vehicle, the method comprising: coupling a first beam formed from a first material having a lower density than steel to a first block formed from a second material having a lower density than steel, wherein the first beam comprises a first end and a second end, and comprises a first through bore disposed proximate the first end, and wherein the first block comprises a through bore, and the through bore portion of the block is configured to be operably disposed inside the first beam aligning the block bore with the first beam first through bore; coupling at least one first steel reinforcing plate to the first beam at a first end; and coupling at least one connecting plate to the at least one first reinforcing plate. 11. The method of claim 10 , further comprising: coupling an angled block formed from the second material within the second end of the first beam, the second end opposite the first end. 12. The method of claim 11 , further comprising: coupling the angled block within a third end of a second beam formed from the first material to form an arm assembly; coupling at least one third steel reinforcing plate to the second beam at the third end of the second beam; and coupling a second block formed from the second material within a fourth end of the second beam, the fourth end opposite the third end. 13. The method of claim 12 , further comprising: coupling a bucket mount bracket to a pair of opposed slots defined in the second block. 14. The method of claim 12 , further comprising: coupling a first tube end of a hollow torque tube to the second block of the arm assembly; and coupling a second tube end of the torque tube to a third block disposed within a fifth end of a second arm assembly. 15. The method of claim 10 , further comprising: coupling a sleeve to a cross-bore defined in the first block, the sleeve configured to couple to the loader work vehicle. 16. The method of claim 15 , further comprising: coupling a pair of lock plates to opposed ends of the sleeve to retain the sleeve within the cross-bore at the first end of the first beam. 17. The method of claim 16 , further comprising: coupling at least one second steel reinforcing plate to the first end of the first beam such that at least one of the pair of lock plates is adjacent to the at least one second steel reinforcing plate. 18. A method of assembling a hybrid loader boom arm for a loader work vehicle, the method comprising: coupling a first beam formed from a first material having a lower density than steel to a second beam formed from the first material using an angled block formed from a second material having a lower density than steel to form an arm assembly, the first beam comprising a second through bore disposed at a second end, the second beam comprising a third through bore disposed at a third end, the angled block comprising a first through bore at a first block end and a second through bore at a second block end, the first block bore configured to be operably disposed inside the second end of the first beam aligning the first block bore with the first beam second through bore, and the second block bore configured to be operably disposed inside the third end of the second beam aligning the second block bore with the second beam third through bore; coupling at least one first steel reinforcing plate to the first beam at the second end of the first beam; coupling at least one second steel reinforcing plate to the second beam at the third end of the second beam; and coupling at least one connecting plate to the at least one first reinforcing plate and the at least one second reinforcing plate. 19. The method of claim 18 , further comprising: coupling a first block formed from the second material within a first end of the first beam, the second end opposite the first end; coupling a sleeve to a cross-bore defined in the first block, the sleeve configured to couple the arm assembly to the loader work vehicle; and coupling a pair of lock plates to opposed ends of the sleeve to retain the sleeve within the cross-bore at the first end of the first beam. 20. The method of claim 18 , further comprising: coupling a second block formed from the second material within a fourth end of the second beam, the fourth end opposite the third end; coupling a bucket mount bracket to a pair of opposed slots defined in the second block; coupling a first tube end of a hollow torque tube to the second block of the arm assembly; and coupling a second tube end of the torque tube to a third block disposed within a fifth end of a second arm assembly.