Downhole tools having mechanical joints with enhanced surfaces

What is claimed is: 1. A rotary roller cone bit comprising: a bit body comprising at least one leg having a bearing pin; a roller cone overlying the bearing pin; a bearing assembly disposed on the bearing pin away from a base of the bearing pin and configured to bear a drilling load, the bearing assembly comprising: a radial journal bearing member affixed within a recess in the bearing pin and comprising a first diamond-like coating on an outer contact surface thereof; a radial cone bearing member affixed within a recess in the roller cone and comprising a second diamond-like coating on an inner contact surface thereof, the second diamond-like coating of the radial cone bearing member abutting the first diamond-like coating of the radial journal bearing member; an axial journal bearing member affixed within another recess in the bearing pin and comprising a third diamond-like coating on an outer contact surface thereof; and an axial cone bearing member affixed within another recess in the roller cone and comprising a fourth diamond-like coating on an inner contact surface thereof, the fourth diamond-like coating abutting the third diamond-like coating of the axial journal bearing member; and a seal assembly configured and positioned to seal the bearing assembly and comprising a seal having a fifth diamond-like coating on a surface thereof, the seal selected from the group consisting of a hydrogenated nitrile butadiene rubber seal, a fluorocarbon elastomer seal, and a perfluorocarbon elastomer seal; wherein each of the first diamond-like coating of the radial journal bearing member, the second diamond-like coating of the radial cone bearing member, the third diamond-like coating of the axial journal bearing member, the fourth diamond-like coating of the axial cone bearing member, and the fifth diamond-like coating of the seal of the seal assembly individually comprises greater than or equal to about 85 percent amorphous sp3 carbon, individually exhibits a thickness between 10 micrometers and about 100 micrometers, and individually has a coefficient of sliding friction of about 0.07 to 0.08 against dry steel. 2. The rotary roller cone bit of claim 1 , wherein each of the first diamond-like coating of the radial journal bearing member, the second diamond-like coating of the radial cone bearing member, the third diamond-like coating of the axial journal bearing member, and the fourth diamond-like coating of the axial cone bearing member individually exhibits a thickness between about 50 micrometers and about 100 micrometers. 3. The rotary roller cone bit of claim 1 , wherein each of the first diamond-like coating of the radial journal bearing member, the second diamond-like coating of the radial cone bearing member, the third diamond-like coating of the axial journal bearing member, and the fourth diamond-like coating of the axial cone bearing member individually exhibits a coefficient of sliding friction of about 0.035 against another diamond-like coating. 4. The rotary roller cone bit of claim 1 , wherein each of the first diamond-like coating of the radial journal bearing member, the second diamond-like coating of the radial cone bearing member, the third diamond-like coating of the axial journal bearing member, and the fourth diamond-like coating of the axial cone bearing member individually comprises a bearing surface of the bearing assembly. 5. The rotary roller cone bit of claim 1 , wherein the seal is selected from the group consisting of a fluorocarbon elastomer seal, and a perfluorocarbon elastomer seal. 6. The rotary roller cone bit of claim 1 , wherein the seal comprises a mechanical face seal. 7. The rotary roller cone bit of claim 1 , further comprising one or more of: a first sublayer comprising magnesium between the first diamond-like coating and the outer contact surface of the radial journal bearing member; a second sublayer comprising magnesium between the second diamond-like coating and the inner contact surface of the radial cone bearing member; a third sublayer comprising magnesium between the third diamond-like coating and the outer contact surface of the axial journal bearing member; and a fourth sublayer comprising magnesium between the fourth diamond-like coating and the inner contact surface of the axial cone bearing member.