Composite combustion engine

What is claimed is: 1. A combustion engine, comprising: an engine block comprising a fiber material in a resin, the engine block defining a wall between adjacent piston bores; one or more reinforcement inserts positioned within the wall between adjacent piston bores, wherein the one or more reinforcement inserts are coated with the fiber material and the resin such that the one or more reinforcement inserts are substantially surrounded by the fiber material and the resin; and a bore liner positioned within each piston bore, wherein each of the bore liners comprises a substrate having an interior surface on which a coating is positioned and an exterior surface defining a retention feature that extends into the wall between adjacent piston bores. 2. The combustion engine of claim 1 , wherein the one or more reinforcement inserts are coated with the fiber material and the resin such that the one or more reinforcement inserts are fully surrounded by the fiber material and the resin. 3. The combustion engine of claim 2 , wherein the substrate comprises aluminum. 4. The combustion engine of claim 1 , wherein at least one of the bore liners defines a plurality of retention features extending outwardly from the bore liner into the engine block. 5. The combustion engine of claim 4 , wherein the retention features comprise a plurality of ribs. 6. The combustion engine of claim 1 , wherein the coating of the piston bores comprises a carbide. 7. A combustion engine, comprising: an engine block substantially comprising a fiber material within a resin, the engine block defining a deck face, a plurality of piston bores, one or more walls between the piston bores, and a bulk head; and a plurality of reinforcement inserts positioned in the one or more walls between the piston bores, wherein the inserts are substantially surrounded by the fiber material in the resin. 8. The combustion engine of claim 7 , wherein the reinforcement inserts comprise an aramid fiber. 9. The combustion engine of claim 7 , wherein the reinforcement inserts are positioned between the plurality of piston bores. 10. The combustion engine of claim 7 , wherein the reinforcement inserts are fully surrounded by the fiber material and the resin. 11. The combustion engine of claim 7 , further comprising: a plurality of bore liners positioned within the plurality of piston bores. 12. The combustion engine of claim 11 , wherein each of the plurality of bore liners define a plurality of ribs substantially surrounded by the fiber material and the resin of the engine block. 13. The combustion engine of claim 12 , wherein the bore liners comprise aluminum. 14. A method of forming a combustion engine, comprising: providing a mold for forming an engine block; positioning a plurality of bore liners that each define a retention feature within the mold; positioning one or more reinforcement inserts within the mold between adjacent bore liners; injecting a fiber material and a resin into the mold, wherein the fiber material and the resin substantially surround the reinforcement inserts; and solidifying the resin to form the engine block. 15. The method of claim 14 , wherein at least one of the plurality of bore liners comprises a metal substrate and a ceramic coating within at least one of the plurality of bore liners. 16. The method of claim 14 , wherein the retention features extend between the bore liners into the fiber material and the resin. 17. The method of claim 14 , wherein the fiber material and the resin fully surround the reinforcement inserts. 18. The method of claim 14 , wherein the reinforcement inserts are positioned in both a deck face and a bulk head of the engine block. 19. The method of claim 14 , wherein the reinforcement inserts comprise an aramid fiber. 20. The method of claim 19 , wherein the fiber material comprises a carbon fiber material.