Mill blade torque support

What is claimed is: 1 . A whipstock assembly, comprising: a whipstock providing a ramped surface and a longitudinal groove defined in the ramped surface; a lead mill coupled to the whipstock with a shear bolt and having a slot defined therein; and a torque key movable between an extended position, where the torque key is partially positioned within both the slot and the longitudinal groove, and a retracted position, where the torque key retracts into the slot, wherein, when in the extended position, the torque key prevents the lead mill from rotating with respect to the whipstock. 2 . The whipstock assembly of claim 1 , wherein the slot provides opposing slot sidewalls and the longitudinal groove provides opposing groove sidewalls, and wherein, when the torque key is in the extended position, torsional loads applied on the lead mill are assumed by the torque key via the opposing slot sidewalls and transferred from the torque key to the opposing groove sidewalls, whereby the torsional loads are transferred to the whipstock. 3 . The whipstock assembly of claim 1 , further comprising: a retaining pin extending from an axial end wall of the longitudinal groove and securing the torque key in the extended position; and a pin aperture defined in the torque key to receive the retaining pin and thereby secure the torque key in the extended position. 4 . The whipstock assembly of claim 3 , further comprising an actuation device arranged between the torque key and the slot to move the torque key to the retracted position. 5 . The whipstock assembly of claim 4 , wherein the actuation device comprises at least one of a coil extension spring, a mechanical actuator, an electromechanical actuator, an electric actuator, a pneumatic actuator, a hydraulic actuator, and any combination thereof. 6 . The whipstock assembly of claim 1 , further comprising: a wedge support positioned within the longitudinal groove and defining a wedge angled surface; and a key angled surface defined on the torque key, the key angled surface being slidingly engageable with the wedge angled surface to move the torque key to the retracted position. 7 . The whipstock assembly of claim 6 , further comprising: one or more spring-loaded dogs provided on the lead mill; and one or more dog apertures defined in the torque key to receive the one or more spring-loaded dogs and thereby secure the torque key in the retracted position. 8 . A well system, comprising: an anchor assembly arranged within a wellbore; a whipstock assembly extendable within the wellbore to be secured to the anchor assembly, the whipstock assembly including a whipstock that provides a ramped surface and a longitudinal groove defined in the ramped surface, and a lead mill coupled to the whipstock with a shear bolt and having a slot defined therein; and a torque key movable between an extended position, where the torque key is partially positioned within both the slot and the longitudinal groove, and a retracted position, where the torque key retracts into the slot, wherein, when in the extended position, the torque key prevents the lead mill from rotating with respect to the whipstock. 9 . The well system of claim 8 , wherein the slot provides opposing slot sidewalls and the longitudinal groove provides opposing groove sidewalls, and wherein, when the torque key is in the extended position, torsional loads applied on the lead mill are assumed by the torque key via the opposing slot sidewalls and transferred from the torque key to the opposing groove sidewalls, whereby the torsional loads are transferred to the whipstock. 10 . The well system of claim 8 , further comprising: a retaining pin extending from an axial end wall of the longitudinal groove and securing the torque key in the extended position; and a pin aperture defined in the torque key to receive the retaining pin and thereby secure the torque key in the extended position. 11 . The well system of claim 10 , further comprising an actuation device arranged between the torque key and the slot to move the torque key to the retracted position, wherein the actuation device is selected from the group consisting of a coil extension spring, a mechanical actuator, an electromechanical actuator, an electric actuator, a pneumatic actuator, a hydraulic actuator, and any combination thereof. 12 . The well system of claim 8 , further comprising: a wedge support positioned within the longitudinal groove and defining a wedge angled surface; and a key angled surface defined on the torque key, the key angled surface being slidingly engageable with the wedge angled surface to move the torque key to the retracted position. 13 . The well system of claim 12 , further comprising: one or more spring-loaded dogs provided on the lead mill; and one or more dog apertures defined in the torque key to receive the one or more spring-loaded dogs and thereby secure the torque key in the retracted position. 14 . A method, comprising: extending a whipstock assembly into a wellbore, the whipstock assembly including a whipstock that provides a ramped surface and a longitudinal groove defined in the ramped surface, and a lead mill coupled to the whipstock with a shear bolt and having a slot defined therein; applying a torsional load to the whipstock assembly; assuming the torsional load with a torque key disposed in an extended position where the torque key is partially positioned within both the slot and the longitudinal groove; and preventing the lead mill from rotating with respect to the whipstock with the torque key. 15 . The method of claim 14 , wherein applying the torsional load to the whipstock assembly comprises rotating the whipstock assembly to latch into an anchor assembly arranged in the wellbore. 16 . The method of claim 14 , wherein applying the torsional load to the whipstock assembly comprises rotating the whipstock assembly to bypass a portion of the wellbore. 17 . The method of claim 14 , wherein the slot provides opposing slot sidewalls and the longitudinal groove provides opposing groove sidewalls, and wherein assuming the torsional load with the torque key comprises: assuming the torsional load with the torque key via engagement with the opposing slot sidewalls; and transferring the torsional load from the torque key to the opposing groove sidewalls and thereby transferring the torsional load to the whipstock. 18 . The method of claim 17 , further comprising: securing the torque key in the extended position with a retaining pin that extends from an axial end wall of the longitudinal groove and into a pin aperture defined in the torque key; latching the whipstock assembly into an anchor assembly arranged in the wellbore; providing an axial load to the lead mill and shearing the shear bolt upon assuming a predetermined axial load; disengaging the retaining pin from the torque key as the lead mill and the torque key are moved in a downhole direction with respect to the whipstock; and retracting the torque key into the slot when the retaining pin disengages from the pin aperture. 19 . The method of claim 18 , wherein retracting the torque key into the slot comprises moving the torque key into the slot with an actuation device selected from the group consisting of a coil extension spring, a mechanical actuator, an electromechanical actuator, an electric actuator, a pneumatic actuator, a hydraulic actuator, and any combination thereof. 20 . The method of claim 17 , wherein a wedge