Expandable downhole tool assemblies, bottom-hole assemblies, and related methods

What is claimed is: 1. An expandable downhole tool assembly for use in a subterranean borehole, the downhole tool assembly comprising: an expandable tool module comprising: at least one blade configured as a reamer blade or a stabilizer blade, carried by a tool body and mounted to move between a retracted position and an extended position; and a drive element disposed within the tool body and coupled to the at least one blade, the drive element configured to axially move relative to the tool body to move the at least one blade into the extended position; an activation module coupled to the expandable tool module and comprising: an activation member coupled to the drive element and operable to axially move the drive element with respect to the activation module responsive to movement of the activation member; and wherein the expandable tool module is a slave unit configured to not be activated without the activation module. 2. The expandable downhole tool assembly of claim 1 , wherein the activation module comprises an electronic and hydraulic activation module configured to receive a signal and respond to the signal by causing hydraulic fluid to move the activation member between an activated position and a deactivated position. 3. The expandable downhole tool assembly of claim 1 , wherein the activation module comprises a mechanical activation module configured to be activated without use of an electrical signal. 4. The expandable downhole tool assembly of claim 1 , wherein the activation module is configured to move the drive element between an activated position and a deactivated position repeatedly. 5. The expandable downhole tool assembly of claim 1 , the expandable reamer module further comprising a yoke coupled to the drive element, wherein the yoke comprises a surface proximate the at least one blade, the surface extending at an angle to the longitudinal axis toward the at least one blade. 6. The expandable downhole tool assembly of claim 1 , the expandable tool module further comprising at least one nozzle extending through the tool body in communication with a bore of the body. 7. The expandable downhole tool assembly of claim 6 , wherein the drive element comprises a sleeve having at least one hole extending through a sidewall thereof, and wherein the at least one hole is configured to provide continuous drilling fluid flow from the bore through the sleeve and the at least one nozzle. 8. The expandable downhole tool assembly of claim 7 , wherein the sleeve is configured to provide a lower rate of drilling fluid flow when the sleeve is in a deactivated position compared to an activated position. 9. The expandable downhole tool assembly of claim 1 , further comprising a joint structure joining the drive element of the expandable reamer module to the activation member of the activation module, the joint structure configured to transmit a motive force from the activation module to the drive element. 10. A bottom-hole assembly, comprising: an expandable tool module comprising a body, at least one blade configured as a reamer blade or a stabilizer blade, and a drive element coupled to the at least one blade, wherein axial movement of the drive element within the body will result in movement of the at least one blade; and an activation module comprising another body coupled to the body and an activation member coupled to the drive element, the activation member configured to pull the drive element into an activated position to move the at least one blade into an expanded position and to push the drive element into a deactivated position to move the at least one blade into a retracted position; wherein the expandable tool module is a slave unit configured to not be activated without the activation module. 11. The bottom-hole assembly of claim 10 , further comprising a pilot bit coupled to the expandable tool module. 12. The bottom-hole assembly of claim 11 , wherein the pilot bit is coupled to the expandable tool module by a linking module. 13. The bottom-hole assembly of claim 10 , wherein the expandable tool module lacks any mechanism configured to provide motive force to axially move the drive element between the activated position and the deactivated position. 14. The bottom-hole assembly of claim 10 , wherein the activation member is configured to pull the drive element into the activated position and to push the drive element into the deactivated position repeatedly. 15. The bottom-hole assembly of claim 10 , wherein the activation module comprises an electronic and hydraulic activation module configured to receive a signal and respond to the signal by causing hydraulic fluid to move the activation member between the activated position and the deactivated position. 16. The bottom-hole assembly of claim 10 , wherein the activation module comprises a mechanical activation module configured to be activated without use of an electrical signal. 17. A method of using an expandable tool assembly, the method comprising: coupling a body of an expandable tool module to a body of an activation module wherein the expandable tool module is a slave unit configured to not be activated without the activation module; disposing the expandable tool module and the activation module in a borehole of a subterranean formation; pulling, with the activation module, an axially movable drive element at least partially within the body of the expandable tool module to engage at least one blade of the expandable tool module with the subterranean formation; and reaming the borehole with the at least one engaged blade or stabilizing the expandable tool assembly in the borehole with the at least one engaged blade. 18. The method of claim 17 , wherein pulling, with the activation module, the axially movable drive element comprises activating the activation module with a first activation apparatus, and further comprising: removing the expandable tool module and the activation module from the borehole of the subterranean formation; uncoupling the expandable tool module from the activation module; and coupling the expandable tool module to another, different activation module comprising a second activation apparatus different from the first activation means; wherein one of the first activation apparatus and the second activation apparatus comprises an electronic and hydraulic activation module and another of the first and second activation means comprises a mechanical activation module. 19. The method of claim 17 , wherein coupling the body of the expandable tool module to the body of the activation module further comprises joining the axially movable drive element to a first longitudinal end of a joint structure and an activation member of the activation module to a second longitudinal end of the joint structure. 20. The method of claim 17 , further comprising: pushing, with the activation module, the axially movable drive element to disengage the at least one blade from the subterranean formation; and repeating at least once the pulling, with the activation module, the axially movable drive element to engage the at least one blade with the subterranean formation and the pushing, with the activation module, the axially movable drive element to disengage the at least one blade from the subterranean formation.