Temperature-based clutch protection from centrifugal head pressure inhibiting clutch disengagement

The invention claimed is: 1. A system of a work vehicle, comprising: an engine; a transmission, comprising a hydrostatic unit configured to control a speed of the work vehicle; a clutch coupled to the transmission, wherein the clutch comprises a centrifugal head internal relief port; a controller communicatively coupled to the engine, the transmission, and the clutch, wherein the controller, in operation: receives a command to disengage the clutch; determines an engine speed of the engine; determines a temperature of hydraulic fluid in the clutch; determines a magnitude for a time to limit acceleration of the work vehicle based on the engine speed and the temperature, wherein limiting the acceleration of the work vehicle at the magnitude for the time causes the clutch to rotate at a rotational speed less than a centrifugal self-engagement speed; commands the clutch to disengage; and limits the acceleration of the work vehicle using the hydrostatic unit based on the magnitude for the time determined, wherein limiting the acceleration of the work vehicle at the magnitude for the time causes the clutch to rotate at the rotational speed less than the centrifugal self-engagement speed, wherein rotating the clutch at the rotational speed less than the centrifugal self-engagement speed enables the centrifugal head internal relief port to open and the clutch to disengage. 2. The system of claim 1 , wherein determining the engine speed of the engine comprises receiving a signal from a sensor coupled to the engine, wherein the signal comprises information related to the engine speed. 3. The system of claim 1 , wherein determining the temperature of the hydraulic fluid in the clutch comprises receiving a signal from a sensor coupled to the clutch, wherein the signal comprises information related to the temperature of the hydraulic fluid. 4. The system of claim 1 , wherein the magnitude for the time to limit the acceleration of the work vehicle are zero when the temperature of the hydraulic fluid is not less than a temperature threshold. 5. A tangible, non-transitory, machine-readable-medium, comprising machine-readable instructions to cause a processor to: receive a command to disengage a clutch of a work vehicle, wherein the clutch comprises a centrifugal head internal relief port; determine an engine speed of the work vehicle; determine a temperature of hydraulic fluid in the clutch; determine a magnitude for a time to limit acceleration of the work vehicle based on the engine speed and the temperature, wherein limiting the acceleration of the work vehicle at the magnitude for the time causes the clutch to rotate at a rotational speed less than a centrifugal self-engagement speed; command the clutch to disengage; and limit the acceleration of the work vehicle based on the magnitude for the time determined using a hydrostatic unit of a transmission of the work vehicle configured to control a speed of the work vehicle, wherein limiting the acceleration of the work vehicle at the magnitude for the time causes the clutch to rotate at the rotational speed less than the centrifugal self-engagement speed, wherein rotating the clutch at the rotational speed less than the centrifugal self-engagement speed enables the centrifugal head internal relief port to open and the clutch to disengage. 6. The machine-readable-medium of claim 5 , wherein determining the engine speed of the work vehicle comprises receiving a signal from a sensor coupled to an engine of the work vehicle, wherein the signal comprises information related to the engine speed. 7. The machine-readable-medium of claim 5 , wherein determining the temperature of the hydraulic fluid in the clutch of the work vehicle comprises receiving a signal from a sensor coupled to the clutch, wherein the signal comprises information related to the temperature of the hydraulic fluid. 8. A method for protecting a clutch of a work vehicle from centrifugal head pressure inhibiting clutch disengagement, comprising: receiving, via a controller, a command to disengage the clutch, wherein the clutch comprises a centrifugal head internal relief port; determining, via the controller, an engine speed of the work vehicle; determining, via the controller, a temperature of hydraulic fluid in the clutch; determining, via the controller, a magnitude for a time to limit acceleration of the work vehicle based on the engine speed and the temperature, wherein limiting the acceleration of the work vehicle at the magnitude for the time causes the clutch to rotate at a rotational speed less than a centrifugal self-engagement speed; commanding, via the controller, the clutch to disengage; and limiting, via the controller, the acceleration of the work vehicle based on the magnitude for the time determined using a hydrostatic unit of a transmission of the work vehicle configured to control a speed of the work vehicle, wherein limiting the acceleration of the work vehicle at the magnitude for the time causes the clutch to rotate at the rotational speed less than the centrifugal self-engagement speed, wherein rotating the clutch at the rotational speed less than the centrifugal self-engagement speed enables the centrifugal head internal relief port to open and the clutch to disengage. 9. The method of claim 8 , wherein determining, via the controller, the engine speed of the work vehicle comprises receiving a signal from a sensor coupled to an engine of the work vehicle, wherein the signal comprises information related to the engine speed. 10. The method of claim 8 , wherein determining, via the controller, the temperature of the hydraulic fluid in the clutch comprises receiving a signal from a sensor coupled to the clutch, wherein the signal comprises information related to the temperature of the hydraulic fluid.