Co-forged golf club head and method of manufacture

What is claimed is: 1. A method of forging a golf club head comprising: begin by pre-forging a cylindrical billet to create a body portion comprising one or more cavities into said body portion of said golf club head, wherein said one or more cavities is non-equiaxially placed at at least one of a heel portion or a toe portion of said body portion; at least partially filling said one or more cavities with a second material to create a weight adjustment portion; providing a cap to at least partially encase said weight adjustment portion within said one or more cavities; finalize by post-forging said body portion containing said weight adjustment portion to create said golf club head, wherein said weight adjustment portion is encased within said body portion, and wherein said second material has a higher density than said first material. 2. The method of forging a golf club head of claim 1 , wherein an outer surface area of said at least one weight adjustment portion equals an inner surface area of said at least one cavity. 3. The method of forging a golf club head of claim 2 , wherein said first material has a first thermal expansion coefficient and said second material has a second thermal expansion coefficient; wherein said first thermal expansion coefficient is greater than or equal to said second thermal expansion coefficient. 4. The method of forging a golf club head of claim 3 , wherein said first thermal expansion coefficient is about 8.0 μin/in° F. 5. The method of forging a golf club head of claim 4 , wherein said second thermal expansion coefficient is about 3.94 μin/in° F. 6. The method of forging a golf club head of claim 3 , wherein said at least one cavity further comprises; a heel cavity located at a lower heel portion of said body portion, and a toe cavity located at a lower toe portion of said body portion, wherein said heel cavity and said toe cavity are disconnected from one another. 7. A method of forging a golf club head comprising: pre-forging a cylindrical billet to create a body portion comprising one or more cavities into said body portion of said golf club head, wherein said one or more cavities remain uncovered; wherein said body portion significantly resembles the outline of said golf club head; at least partially filling said one or more cavities with a second material to create a weight adjustment portion; providing a cap to at least partially encase said weight adjustment portion within said one or more cavities; post-forging said body portion containing said weight adjustment portion to create said golf club head, wherein said weight adjustment portion is encased within said body portion, and wherein said second material has a higher density than said first material. 8. The method of forging a golf club head of claim 7 , wherein said at least one cavity further comprises; a heel cavity located at a lower heel portion of said body portion, and a toe cavity located at a lower toe portion of said body portion, wherein said heel cavity and said toe cavity are disconnected from one another. 9. The method of forging a golf club head of claim 8 , wherein said first material has a first thermal expansion coefficient and said second material has a second thermal expansion coefficient; wherein said first thermal expansion coefficient is greater than or equal to said second thermal expansion coefficient. 10. The method of forging a golf club head of claim 9 , wherein said first thermal expansion coefficient is about 8.0 μin/in° F. 11. The method of forging a golf club head of claim 10 , wherein said second thermal expansion coefficient is about 3.94 μin/in° F. 12. A method of forging a golf club head comprising: first, bending a cylindrical billet to create a hosel portion and a blade portion of said golf club head; second, pre-forging said cylindrical billet to create a body portion comprising one or more cavities into said body portion of said golf club head, wherein said body portion significantly resembles the outline of said golf club head; third, at least partially filling said one or more cavities with a second material to create a weight adjustment portion; fourth, providing a cap to at least partially encase said weight adjustment portion within said one or more cavities; fifth, post-forging said body portion containing said weight adjustment portion to create said golf club head, wherein said weight adjustment portion is encased within said body portion, and wherein said second material has a higher density than said first material. 13. The method of claim 12 , wherein the second step of pre-forging a cylindrical billet allows said one or more cavities to be non-equiaxially placed at at least one of a heel portion or a toe portion of said body portion. 14. The method of claim 13 , wherein an outer surface area of said at least one weight adjustment portion equals an inner surface area of said at least one cavity. 15. The method of forging a golf club head of claim 14 , wherein said first material has a first thermal expansion coefficient and said second material has a second thermal expansion coefficient; wherein said first thermal expansion coefficient is greater than or equal to said second thermal expansion coefficient. 16. The method of forging a golf club head of claim 15 , wherein said first thermal expansion coefficient is about 8.0 μin/in° F. 17. The method of forging a golf club head of claim 16 , wherein said second thermal expansion coefficient is about 3.94 μin/in° F.