Drill string stabilizer recovery improvement features

What is claimed is: 1. A stabilizer for use with a rotatable drill string, the stabilizer comprising: a track disposed along a tubular body; and a stabilizer blade operatively coupled to the track, wherein the stabilizer blade is releasably secured at a first position along the track with respect to axial movement of the tubular body in either direction by a first position retention mechanism providing a first threshold force, the stabilizer blade comprising a first blade piece releasably engaged with a second blade piece by a two-piece engagement mechanism forming the stabilizer blade, the track allowing the stabilizer blade to slide from the first position to a second position along the track solely in response to a first particular force acting on the stabilizer blade external to the tubular body, the first particular force being in excess of the first threshold force causing the stabilizer blade to disengage from the first position retention mechanism and slide from the first position to the second position wherein the first piece and the second piece are retained at the second position by a second position retention mechanism and in the second position the second piece is at least partially retracted into the tubular body; and wherein the first piece of the stabilizer blade is released from engagement with the second piece at the second position when the first piece is subjected to a disengaging particular force at the second position acting on the first piece external to the tubular body, the disengaging particular force being in excess of a second threshold force that defeats the two-piece engagement mechanism to enable the first piece to releasably disengage from the second piece whereby the first piece moves along at least one of the second piece and the track to at least partially retract into the tubular body. 2. The stabilizer of claim 1 , wherein the first position retention mechanism comprises a shearable device configured to hold the stabilizer blade in the first position along the track when external force acting on the stabilizer blade is below the first particular force. 3. The stabilizer of claim 2 , wherein the shearable device is configured to allow the stabilizer blade to move from the first position in response to the first particular force when the first particular force is an axial force differential between the stabilizer blade and the tubular body. 4. The stabilizer of claim 3 , wherein the force differential between the first particular force and the first threshold force is at least 10,000 kg. 5. The stabilizer of claim 3 , further comprising a plurality of stabilizer blades, wherein each stabilizer blade of the plurality of stabilizer blades is configured to move independently of other of the plurality of stabilizer blades. 6. The stabilizer of claim 3 , wherein the first position retention mechanism comprises a detent mechanism configured to hold the stabilizer blade in the first position along the track. 7. The stabilizer of claim 6 , wherein the detent mechanism is configured to reengage the stabilizer blade upon the return of the stabilizer blade to the first position. 8. The stabilizer of claim 1 , wherein the second position retention mechanism comprises a mechanical stop configured to prevent the second piece of the stabilizer blade from sliding past the second position on the track. 9. The stabilizer of claim 1 , wherein the track comprises an angled track configured to move the stabilizer blade into a recessed position along the tubular body. 10. The stabilizer of claim 1 , wherein the track is aligned along with the axis of the tubular body. 11. The stabilizer of claim 1 , wherein the track is aligned at an angle to the axis of the tubular body. 12. The stabilizer of claim 1 , wherein the first piece configured to slide along a slot on the second piece. 13. The stabilizer of claim 1 , wherein the stabilizer blade is mounted on a stabilizer sleeve and the stabilizer sleeve is provided on the tubular body. 14. The stabilizer of claim 1 , comprising a hydraulic jet nozzle on the track, wherein the hydraulic jet nozzle is configured to release fluid into a wellbore annulus external to the tubular body. 15. The stabilizer of claim 14 , wherein the hydraulic jet nozzle is blocked when the stabilizer blade is in the first position. 16. The stabilizer of claim 14 , wherein the hydraulic jet nozzle is exposed when the stabilizer blade is in the second position. 17. A method for stabilizing a rotatable drill string in a wellbore, comprising: providing a stabilizer according to claim 1 within the drill string; advancing the drill string into the wellbore; centering the drill string including a plurality of stabilizer blades disposed along the drill string, wherein each of the plurality of stabilizer blades remains at a first extended position on a track as the drill string is advanced into the wellbore; and retracting the drill string in the wellbore, wherein at least one of the plurality of stabilizer blades slides to the second position along the track solely in response to being caught on an obstruction in the wellbore, wherein the obstruction exerts the first particular force axially upon the stabilizer blade in excess of the first threshold force, the first particular force causing the at least one stabilizer blade to disengage from the first position retention mechanism and slide into the second position, and at least partially retract the second piece into the tubular body. 18. The method of claim 17 , comprising releasing a fluid from a hydraulic jet nozzle, the released fluid being released into the track and then into an annulus of the wellbore. 19. The method of claim 17 , comprising retracting the stabilizer blade to a smaller effective diameter when the stabilizer blade slides to the second position. 20. The method of claim 17 , comprising moving the drill string axially to dislodge the obstruction. 21. The method of claim 17 , further comprising: retracting the drill string in the wellbore when the stabilizer blade is positioned at the second position, wherein subsequent to engagement with the obstruction the retracting of the drill string at the second position subjects the first piece of the stabilizer blade to the disengaging particular force acting axially upon the first piece of the stabilizer blade external to the tubular body, the disengaging particular force being in excess of the second threshold force that defeats the two-piece engagement mechanism to enable the first piece to releasably disengage from the second piece whereby the first piece moves along at least one of the second piece and the track to at least partially retract the first piece into the tubular body.