Methods and apparatus for mitigating downhole torsional vibration

What is claimed is: 1. An apparatus, comprising: a housing having a longitudinal axis, the housing configured to co-axially couple to a drill string; a stabilizing member projecting radially outward from the housing, the stabilizing member configured to engage a borehole wall to radially space the housing from the borehole wall; a mounting assembly configured to mount the stabilizing member to the housing to permit relative angular displacement of the entirety of the stabilizing member about the housing central longitudinal axis, the mounting assembly configured to resist relative longitudinal displacement between the housing and the stabilizing member; and a hydraulic damping mechanism configured to damp relative angular displacement between the housing and the stabilizing member. 2. The apparatus of claim 1 , wherein the mounting assembly comprises the damping mechanism. 3. The apparatus of claim 1 , wherein the damping mechanism is configured to provide bi-directional damping of housing rotation relative to the stabilizing member by exerting a damping moment on the housing responsive to relative rotational movement of the housing in one direction, and to exert an oppositely oriented damping moment on the housing responsive to relative rotational movement of the housing in the opposite direction. 4. The apparatus of claim 1 , wherein the damping mechanism comprises one or more dashpot mechanisms that respectively comprise a piston/cylinder arrangement configured to force hydraulic liquid under pressure through a flow restricting damper orifice responsive to rotation of the housing relative to the stabilizing member. 5. The apparatus of claim 4 , wherein the damping mechanism for the stabilizing member comprises at least two dashpot mechanisms that have opposite rotational orientations, a first dashpot mechanisms configured to damp relative rotation in one direction, and a second dashpot mechanism configured to damp relative rotation in the other direction. 6. The apparatus of claim 4 , wherein the housing comprises: a tubular hub configured to rotate co-axially with the drill string; and a plurality of blade elements that are rotationally keyed to the hub and project radially outwards from the hub, the blade elements being arranged and dimensioned such that the stabilizing member is located with circumferential clearance between two neighboring blade elements, each piston/cylinder arrangement being provided cooperatively by the stabilizing member and an adjacent blade element. 7. The apparatus of claim 6 , wherein the stabilizing member has a radially outer bearing surface to engage the borehole wall, an outer diameter of the bearing surface being greater than respective outer diameters of the plurality of blade elements. 8. The apparatus of claim 6 , wherein each piston/cylinder arrangement comprises a curved piston carried by the stabilizing member and extending along a part-circumferential path, the curved piston being slidingly received in a complementary curved cylinder defined in the corresponding blade element. 9. The apparatus of claim 8 , wherein each blade element provides one or more cylinders of respective piston/cylinder arrangements on one side of the blade element, relative to the rotational direction, and provides one or more cylinders of respective piston/cylinder arrangements on the other side of the blade element, the blade element further defining a fluid flow connection between the cylinders on the respective sides of the blade element. 10. The apparatus of claim 8 , wherein each piston/cylinder arrangement includes a damper plate that defines the damper orifice and that is loosely located in the associated cylinder, the damper plate being held captive between the corresponding piston and an annular shoulder opposite the piston, so that hydraulic flow from the cylinder seats the damper plate on the shoulder and restricts flow to the damper orifice, while hydraulic flow into the cylinder, across the shoulder, lifts the damper plate from the annular shoulder. 11. The apparatus of claim 10 , wherein a circumferential opening is defined between the damper plate and a wall of the cylinder, to permit hydraulic flow through the circumferential opening when the damper plate is lifted from the annular shoulder during hydraulic flow into the cylinder, across the shoulder. 12. A system, comprising: an elongated drill string extending longitudinally along a borehole; a housing co-axially connected to the drill string for rotation with the drill string, the housing having a central longitudinal axis; a stabilizing member mounted to, and projecting radially outward from, the housing, the stabilizing member configured to move about the housing central longitudinal axis relative to the housing; a displacement resistance mechanism arranged to resist relative longitudinal displacement between the housing and the stabilizing member; and a hydraulic damping mechanism configured to damp relative angular displacement between the housing and the stabilizing member. 13. The system of claim 12 , wherein the hydraulic damping mechanism comprises one or more dashpot mechanisms that respectively comprise a piston/cylinder arrangement configured to force hydraulic liquid under pressure through a flow restricting damper orifice responsive to rotation of the housing relative to the stabilizing member, a relative rotational velocity of the housing and stabilizing member being limited by a rate of hydraulic flow through the damper orifice. 14. The system of claim 13 , wherein the hydraulic damping mechanism comprises a first dashpot mechanism configured to damp relative rotation in a first direction, and a second dashpot mechanism configured to damp relative rotation in a second direction, opposite the first direction. 15. The system of claim 13 , wherein the housing comprises: a tubular hub to rotate co-axially with the drill string; and a plurality of blade elements that are rotationally keyed to the hub and project radially outwards from the hub, the blade elements being arranged and dimensioned such that the stabilizing member is located with circumferential clearance between two neighboring blade elements, each piston/cylinder arrangement being provided co-operatively by the stabilizing member and an adjacent blade element. 16. The system of claim 15 , wherein each piston/cylinder arrangement comprises a curved piston carried by the respective stabilizing member and extending along a part-circumferential path, the curved piston being slidingly received in a complementary curved cylinder defined in the corresponding blade element. 17. The system of claim 16 , wherein each blade element provides one or more cylinders of respective piston/cylinder arrangements on one side of the blade element, relative to the rotational direction, and provides one or more cylinders of respective piston/cylinder arrangements on the other side of the blade element, the blade element further defining a fluid flow connection between the cylinders on the respective sides of the blade element. 18. An apparatus, comprising: a housing having a longitudinal axis, the housing configured to co-axially couple to a drill string; at least one stabilizing member projecting radially outward from the housing, the at least one stabilizing member configured to engage a borehole wall to radially space the housing from the borehole wall; a mounting assembly configured to mount the at least one stabilizing member to the housing to permit relative angular displacement of the entirety of the at least