Bearings for downhole tools, downhole tools incorporating such bearings, and related methods

What is claimed is: 1. A bearing system configured for use on a downhole tool including a rolling cutter member, the rolling cutter member including a plurality of cutting structures, the bearing system comprising: a tensioner bolt having a complementary nut, the tensioner bolt and nut sized and shaped to secure the rolling cutter member to a head; a radial bearing comprising an annular sleeve sized and shaped to surround the head; a shaft washer sized and shaped to surround the tensioner bolt between an enlarged head of the tensioner bolt and the annular sleeve; and a bearing element for positioning proximate the head, the bearing element comprising an upper surface configured for sliding, frictional contact with a lower surface of the shaft washer. 2. The bearing system of claim 1 , further comprising another bearing element for positioning between the enlarged head of the tensioner bolt and the shaft washer, the another bearing element comprising a lower surface configured for sliding, frictional contact with an upper surface of the shaft washer. 3. The bearing system of claim 1 , wherein a lower surface of the enlarged head of the tensioner bolt is configured for sliding, frictional contact with an upper surface of the shaft washer. 4. The bearing system of claim 3 , wherein the lower surface of the enlarged head and the upper surface of the shaft washer are perpendicular to a longitudinal axis of the head when the bearing system is assembled on the downhole tool. 5. The bearing system of claim 3 , wherein at least a portion of the lower surface of the enlarged head and at least a portion of the upper surface of the shaft washer are oriented at an acute angle to a longitudinal axis of the head when the bearing system is assembled on the downhole tool. 6. The bearing system of claim 1 , wherein the upper surface of the bearing element and the lower surface of the shaft washer are perpendicular to a longitudinal axis of the head when the bearing system is assembled on the downhole tool. 7. The bearing system of claim 1 , wherein at least a portion of the upper surface of the bearing element and at least a portion of the lower surface of the shaft washer are oriented at an acute angle to a longitudinal axis of the head when the bearing system is assembled on the downhole tool. 8. The bearing system of claim 1 , wherein a stack height of a thrust bearing of the bearing system occupies less than about 20% of a total longitudinal space within the rolling cutter member when the bearing system is assembled on the downhole tool. 9. The bearing system of claim 1 , wherein a length of the annular sleeve of the radial bearing occupies more than about 30% of a total longitudinal space within the rolling cutter member when the bearing system is assembled on the downhole tool. 10. A downhole tool for subterranean drilling, comprising: a body comprising at least one leg extending outward from the body; a head located at an end of the at least one leg; a rolling cutter member rotatably secured to the head; a tensioner bolt comprising an enlarged head located on a first side of the head and a nut located on a second, opposite side of the head, the tensioner bolt and nut securing the rolling cutter member to the head; a radial bearing comprising an annular sleeve surrounding the head, the radial bearing located within a central cavity of the rolling cutter member; a shaft washer surrounding the tensioner bolt and located longitudinally between the enlarged head of the tensioner bolt and the annular sleeve; and a bearing element located proximate the head, the bearing element comprising an upper surface configured for sliding, frictional contact with a lower surface of the shaft washer. 11. The downhole tool of claim 10 , wherein the bearing element is located within a recess in a shoulder of the head, a portion of the shoulder being located radially between the bearing element and the rolling cutter member, an upper surface of the portion of the shoulder being in sliding, frictional contact with a lower surface of the shaft washer. 12. The downhole tool of claim 10 , wherein the tensioner bolt comprises a retaining portion extending longitudinally outward from the enlarged head, the retaining portion being located within a receptacle formed in the rolling cutter member within the central cavity. 13. The downhole tool of claim 10 , wherein the tensioner bolt comprises a side surface in sliding, frictional contact with a side surface of the shaft washer, the tensioner bolt and shaft washer forming another radial bearing. 14. The downhole tool of claim 10 , wherein a diameter of the head is within about 10% of a maximum diameter for the head over greater than 50% of a total longitudinal space within the rolling cutter member. 15. A method of assembling a bearing assembly of a downhole tool configured for subterranean drilling, the method comprising: placing an enlarged head of a tensioner bolt into a central cavity of a rolling cutter member; placing a shaft washer within the central cavity on a side of the enlarged head opposite the rolling cutter member; attaching a retaining member to the rolling cutter member, the retaining member having an upper surface in a position adjacent to the shaft washer on a side of the shaft washer opposite the enlarged head; placing a bearing element within a recess in a shoulder of a head at an end of a leg of a body of the downhole tool; inserting an elongated shaft of the tensioner bolt through the head, such that an upper surface of the bearing element is in sliding, frictional contact with a lower surface of the shaft washer; and securing the tensioner bolt to the head utilizing a nut. 16. The method of claim 15 , wherein inserting the elongated shaft through the head comprises placing an upper surface of a portion of a shoulder of the head at least partially defining the recess in contact with a lower surface of the shaft washer. 17. The method of claim 15 , further comprising placing a retaining portion of the tensioner bolt extending longitudinally outward from the enlarged head within a receptacle formed in the rolling cutter member within the central cavity. 18. The method of claim 15 , further comprising placing another bearing element between the enlarged head of the tensioner bolt and the shaft washer, a lower surface of the other bearing element in sliding, frictional contact with an upper surface of the shaft washer. 19. The method of claim 15 , wherein placing the shaft washer within the central cavity comprises placing an upper surface of the shaft washer in sliding, frictional contact with a lower surface of the enlarged head of the tensioner bolt. 20. The method of claim 15 , wherein inserting the elongated shaft through the head comprises positioning the head within the central cavity of the rolling cutter member such that a diameter of the head is within about 10% of a maximum diameter for the head over greater than 50% of a total longitudinal space within the rolling cutter member.