Knife for surgical stapler and associated method of manufacture with MIM and HIP

We claim: 1. An instrument, comprising: (a) a shaft extending distally along a longitudinal axis; and (b) an end effector in communication with the shaft, wherein the end effector is operable to compress, staple, and cut tissue, wherein the end effector comprises: (i) a first jaw including a recess configured to receive a staple cartridge, (ii) a second jaw including an anvil, and (iii) a knife, wherein the knife comprises: (A) a cutting edge including first and second opposing sides, (B) an anvil pin configured to move within a recess of the anvil, wherein the anvil pin includes inner and outer surfaces, wherein the inner surface of the anvil pin is disposed closer to the cutting edge than the outer surface of the anvil pin, wherein at least the inner surface of the anvil pin has a machined surface finish that is finer than a remainder of the anvil pin which is configured to tighten dimensional tolerances and minimize wear associated with slidably interacting with the anvil, and (C) a channel pin configured to move within the recess of the first jaw, wherein the channel pin includes inner and outer surfaces, wherein the inner surface of the channel pin includes a pair of raised surface portions and a recessed surface portion positioned between the raised surface portions, wherein the inner surface of the channel pin is disposed closer to the cutting edge than the outer surface of the channel pin, wherein at least one of the inner or outer surfaces of the channel pin has a machined surface finish that is finer than a remainder of the channel pin which is configured to tighten dimensional tolerances and minimize wear associated with slidably interacting with the recess of the first jaw. 2. The instrument of claim 1 , wherein the channel and anvil pins have a machined surface finish that is finer than the remainders of the channel and anvil pins that have not been machined. 3. The instrument of claim 1 , wherein the machined surface finishes of the anvil pin and the channel pin are configured to reveal material voids in the anvil pin and channel pin. 4. The instrument of claim 1 , wherein the outer surface of the channel pin has a machined surface finish that is finer than the remainder of the anvil pin which is configured to reduce wear associated with slidably interacting with the recess. 5. The instrument of claim 1 , wherein the anvil pin includes opposing first and second flanges, wherein the channel pin includes opposing first and second flanges. 6. The instrument of claim 5 , wherein the opposing first and second flanges of the anvil pin each include inner and outer surfaces, wherein the middle portion includes an outer surface that is disposed further from the cutting edge than the outer surface of the anvil pin. 7. The instrument of claim 1 , wherein the knife further comprises a middle flange or pin that includes inner and outer surfaces, wherein the inner surface of the middle flange or pin is disposed closer to the cutting edge than the outer surface of the middle flange or pin, wherein the middle flange or pin projection is disposed between the anvil and channel pins. 8. The instrument of claim 7 , wherein at least one of the inner or outer surfaces of the middle flange or pin has a machined surface finish that is finer than a remainder of the middle flange or pin which is configured to reduce wear associated with slidably interacting with the recess. 9. The instrument of claim 7 , wherein each of the inner and outer surfaces of the middle flange or pin have the machined surface finish that is finer than the remainder of the anvil pin which is configured to reduce the wear associated with slidably interacting with the recess. 10. The instrument of claim 1 , wherein each of the inner and outer surfaces of the anvil pin have the machined surface finish that is finer than the remainder of the anvil pin which is configured to reduce wear associated with slidably interacting with the anvil. 11. The instrument of claim 1 , wherein each of the inner and outer surfaces of the channel pin have the machined surface finish that is finer than the remainder of the channel pin which is configured to reduce wear associated with slidably interacting with the recess. 12. The instrument of claim 1 , wherein the knife further comprises at least one aligning feature configured to engage a firing rod of the instrument. 13. An instrument, comprising: (a) a shaft extending distally along a longitudinal axis; and (b) an end effector in communication with the shaft, wherein the end effector is operable to compress, staple, and cut tissue, wherein the end effector comprises: (i) a first jaw that includes a stapling assembly, (ii) a second jaw that includes an anvil, and (iii) a knife, wherein at least a portion of the knife has a first surface finish, wherein the knife comprises: (A) a cutting edge, (B) a first pin configured to interact with the anvil, wherein at least a portion of the first pin has a machined surface finish that is finer than the first surface finish, wherein the first pin includes an outer upper surface and a lower surface, wherein each of the upper surface and the lower surface is upwardly facing, wherein the upper surface is above the lower surface, wherein each of the outer upper surface and the lower surface has a machined surface finish configured to tighten dimensional tolerances of the outer upper surface and the lower surface, and (C) a second pin that includes upper and lower surfaces, wherein the upper surface of the second pin includes a pair of raised surface portions and a recessed surface portion positioned between the raised surface portions, wherein at least one of the upper or lower surfaces of the second pin has a machined surface finish that is finer than a remainder of the second pin which is configured to minimize wear associated with slidably interacting the stapling assembly. 14. The instrument of claim 13 , wherein the first pin is an anvil pin configured to move within a recess of the anvil, wherein at least one of the upper surface or the lower surface of the anvil pin has the second surface finish which is configured to reduce wear associated with slidably interacting with the anvil. 15. The instrument of claim 14 , wherein the second pin is a channel pin configured to move within a recess of the stapling assembly, wherein the channel pin includes upwardly facing upper and lower surfaces, wherein at least one of the upwardly facing upper surface or the upwardly facing lower surface of the channel pin has the second surface finish which is configured to reduce wear slidably interacting with the recess of the stapling assembly. 16. An instrument, comprising: (a) a shaft extending distally along a longitudinal axis; and (b) an end effector in communication with the shaft, wherein the end effector is operable to compress, staple, and cut tissue, wherein the end effector comprises: (i) a first jaw including staple assembly, (ii) a second jaw including an anvil, and (iii) a knife comprising: (A) a first pin having a molded shape with a first surface finish, wherein at least a portion of the first pin has a machined surface finish, (B) a second pin having a portion with the first surface finish, wherein an upper surface of the second pin has a machined surface finish, and (C) a third pin disposed between the first and second pins, wherein a lower surface of the third projection, but not the upper surface, has a machined surface finish, wherein the lower surface includes first and second downwardly facing surfaces, wherein the first downwardly facing sur