System and method for controlling a downhole operation using a clutch tool

What is claimed is: 1. A clutch tool for controlling torque transfer between first and second sections of a work string, the clutch tool comprising: a housing that is non-rotatable with respect to the first section of the work string and comprising inner grooves; an inner mandrel that is non-rotatable with respect to the second section of the work string, the inner mandrel comprising: outer grooves that extend along only an axial portion of the inner mandrel; and a torque transition area opening from the outer grooves and extending completely around the inner mandrel; a torque sleeve comprising inner protrusions engageable with the outer grooves and outer protrusions engageable with the outer grooves, the outer protrusions being angled; a biasing device to bias the inner protrusions of the torque sleeve into engagement with the outer grooves; wherein the biasing device is configured to bias the torque sleeve into engagement with both the inner and outer grooves such that torque is transferred between the housing and the inner mandrel; wherein torque transfer between the housing and the inner mandrel overcomes the bias of the biasing device to move the torque sleeve axially along the inner mandrel; and wherein when the torque exceeds a threshold, the torque sleeve is moved into the torque transition area, disengaging the torque sleeve from the outer grooves and preventing transmission of torque between the housing and the inner mandrel. 2. The clutch tool of claim 1 , wherein the biasing device biases the torque sleeve in an uphole direction. 3. The clutch tool of claim 1 , comprising an uphole sub coupled to the housing, wherein torque is transferred to the housing via the uphole sub. 4. The clutch tool of claim 1 , comprising a downhole sub coupled to the inner mandrel, wherein torque is transferred from the inner mandrel via the downhole sub. 5. The clutch tool of claim 1 , wherein an outer diameter of the torque transition area matches an outer diameter of the outer grooves. 6. The clutch tool of claim 1 , wherein the torque sleeve is axially moveable from disengagement with the outer grooves to engagement with the outer grooves by the biasing device in response to a torque applied to the torque sleeve falling below the threshold torque. 7. The clutch tool of claim 5 , wherein the threshold torque is below a torque rating of the second section of the work string. 8. The clutch tool of claim 1 , wherein a first side of each of the outer grooves extends further along a length of the inner mandrel than a second side of each of the outer grooves. 9. The clutch tool of claim 1 , wherein an outer diameter of the first section is greater than the second section. 10. The clutch tool of claim 1 , wherein the inner grooves and the outer grooves are helical grooves. 11. A downhole work string comprising: a first section comprising a first torque rating; a second section rotatable with respect to the first section and comprising a second torque rating that is less than the first torque rating; and a clutch tool for controlling torque transfer between the first and second sections of the work string, the clutch tool comprising: a housing that is non-rotatable with respect to the first section of the work string and comprising inner grooves; an inner mandrel that is non-rotatable with respect to the second section of the work string, the inner mandrel comprising: outer grooves that extend along only an axial portion of the inner mandrel; and a torque transition area opening from the outer grooves and extending completely around the inner mandrel and with an outer diameter that matches the outer diameter of the outer grooves; a torque sleeve comprising inner protrusions engageable with the outer grooves and outer protrusions engageable with the outer grooves, the outer protrusions being angled; a biasing device to bias the inner protrusions of the torque sleeve into engagement with the outer grooves; wherein the biasing device is configured to bias the torque sleeve into engagement with both the inner and outer grooves such that torque is transferred between the housing and the inner mandrel; wherein torque transfer between the housing and the inner mandrel overcomes the bias of the biasing device to move the torque sleeve axially along the inner mandrel; and wherein when the torque exceeds a threshold, the torque sleeve is moved into the torque transition area, disengaging the torque sleeve from the outer grooves and preventing transmission of torque between the housing and the inner mandrel.