Variable stiffness downhole tool housing

What is claimed is: 1. A variable stiffness downhole tool housing, comprising a plurality of cylindrical segments positioned along a common axis and comprising at least a pair of segments each coupled to a bulkhead and positioned at either axial end of the tool housing; at least one flexible cylindrical sleeve, positioned along the common axis between two segments of the plurality of cylindrical segments, comprising a first and second region with an outer diameter no larger than a common inner diameter of the two segments and a third region located between the first and second regions and with an outer diameter no larger than a common outer diameter of the two segments, the first and second regions each at least partially inserted into an end of one of the two segments; a port, coupled to one of the bulkheads, that permits the passage of a fluid into a volume formed by the plurality of cylindrical segments, the at least one flexible cylindrical sleeve, and the bulkheads; and a stiffness controller that controls the stiffness of the tool housing by controlling at least part of an axial force relative to the common axis and exerted between the two segments, wherein the stiffness controller comprises a pressure controller, coupled to one of the bulkheads and to the port, that controls at least part of the axial force by setting the hydraulic pressure of the fluid filling the volume, said axial force comprising an expansive axial force; and wherein axial expansion of the housing is mechanically limited. 2. The variable stiffness download tool housing of claim 1 , further comprising: a tensioner that axially couples the bulkheads to each other and controls at least part of the axial force exerted by the two segments on opposite sides of the third region, said axial force comprising a compressive axial force; wherein the stiffness controller comprises a tension controller, coupled to one of the bulkheads and to the tensioner, which controls at least part of the compressive axial force by setting the tension along the tensioner. 3. The variable stiffness downhole tool housing of claim 2 , wherein the tensioner is acoustically isolated from the bulkheads. 4. The variable stiffness downhole tool housing of claim 1 , wherein the axial expansion of the housing is mechanically limited by a tensioner that couples the bulkheads to each other. 5. The variable stiffness downhole tool housing of claim 1 , wherein the at least one flexible cylindrical sleeve is made of a material that attenuates acoustic waves. 6. The variable stiffness downhole tool housing of claim 1 , wherein the at least one flexible cylindrical sleeve comprises rubber or plastic. 7. The variable stiffness downhole tool housing of claim 1 , further comprising; at least one additional segment of the plurality of cylindrical segments positioned along the common axis between the pair of segments coupled to the bulkheads; and the at least one flexible sleeve further comprising a fourth region similar to the first and second regions and a fifth region similar to the third region, the fifth region positioned between the third and fourth regions; wherein the fourth region is at least partially inserted into an end of the at least one additional segment. 8. The variable stiffness downhole tool housing of claim 1 , further comprising; at least one additional segment of the plurality of cylindrical segments positioned along the common axis between the pair of segments coupled to the bulkheads; and at least one additional flexible sleeve, positioned along the common axis between one of the two segments and the one additional segment, comprising a fourth and fifth region similar to the first and second regions and a sixth region similar to the third region; wherein the fourth region is at least partially inserted into an end of the one of the two segments and the fifth region is at least partially inserted into an end of the at least one additional segment. 9. The variable stiffness downhole tool housing of claim 1 , wherein the variable stiffness downhole tool housing comprises an isolator or a receiver of an acoustic logging tool. 10. The variable stiffness downhole tool housing of claim 1 , further comprising at least one key secured to the outside of a first segment of the two segments and axially extending past an end of the first segment and into a recessed notch in a second segment of the two segments, said notch being larger than a portion of the at least one key inserted into the notch in all directions in which a notch surface faces the at least one key. 11. The variable stiffness downhole tool housing of claim 10 being comprised by an acoustic logging tool, wherein the stiffness of the variable stiffness downhole tool housing is adjusted during operation of the acoustic logging tool such that the key is not in direct physical contact with the second segment. 12. The variable stiffness downhole tool housing of claim 10 , wherein the at least one key limits the flexing of the two segments or limits axial compression, axial separation, or twisting between the two segments. 13. A method for operating a variable stiffness housing of a downhole tool, comprising: activating a stiffness controller within the housing and setting the housing to a stiffened state that restricts flexing by increasing axial forces relative to a common axis and between two segments of the housing, said two segments corresponding to two of a plurality of cylindrical segments positioned along the common axis at opposite ends of the housing, wherein increasing the axial forces comprises increasing axial expansion forces between the two segments by increasing the hydraulic pressure of a fluid contained within the housing between the two bulkheads, and further comprises mechanically limiting axial expansion of the housing; moving the downhole tool through a borehole until a deviation in the borehole is encountered; setting the housing to an unstiffened state to allow the housing to flex beyond previously restricted limits; moving the downhole tool past the deviation; setting the housing to the stiffened state once the downhole tool is past the deviation; and continuing to move the downhole tool through the borehole. 14. The method of claim 13 , wherein increasing the axial forces comprises increasing axial compression forces between the two segments by increasing tension along a tensioner that couples two bulkheads, each bulkhead coupled to one of the two segments. 15. The method of claim 14 , wherein the tensioner is acoustically isolated from at least one of the two bulkheads. 16. The method of claim 13 , wherein mechanically limiting the axial expansion of the housing comprises coupling the two segments to each other with a tensioner. 17. The method of claim 13 , wherein mechanically limiting the axial expansion of the housing comprises coupling the two segments by at least one key attached to the exterior of a first of the two segments and inserted into a notch on the exterior of a second of the two segments. 18. The method of claim 13 , further comprising: maintaining the housing in the stiffened state; and operating an acoustic logging tool that comprises the housing while the housing is in the stiffened state, wherein the two segments are separated by at least one cylindrical sleeve positioned along the common axis, with each end of the at least one cylindrical sleeve to either side of a protuberance and at least partially inserted inside an end of one of the two segments, and wherein the at least one cyli