Information handling system flexible display rotational orientation monitoring and management

What is claimed is: 1. An information handling system comprising: first and second housing portions; a hinge rotationally coupling the first and second housing portions to rotate between closed and open positions; a display disposed over the first and second housing portions and the hinge, the display having a flat configuration in the open position and a folded configuration in the closed position; one or more thermal sensors operable to detect a thermal state at the display; a hinge brake interfaced with the hinge and operable to selectively lock the hinge to restrict rotation of the first and second housing portions; a hinge manager interfaced with the one or more thermal sensors and the hinge brake, the hinge manager operable to apply the hinge brake to restrict rotation of the first and second housing portions if the one or more thermal sensors detect a predetermined thermal state; and a heating element disposed proximate the display and operable to direct thermal energy towards the display; wherein the hinge manager applies the heating element to heat the display when the hinge brake restricts rotation due to a low thermal state. 2. The information handling system of claim 1 further comprising: a hinge position timer operable to track an amount of time that the hinge has a rotational orientation; wherein the predetermined thermal state varies based upon the amount of time. 3. The information handling system of claim 1 further comprising: a cooling element disposed proximate the display and operable to draw thermal energy from the display; wherein the hinge manager applies the cooling element to cool the display when the hinge brake restricts rotation due to a high thermal state. 4. The information handling system of claim 3 wherein the hinge manager operates on an embedded processor to maintain the display temperature in a range during both power down states and power up states of the information handling system. 5. The information handling system of claim 3 wherein the hinge manager includes an active manager interfaced with the heating element and the cooling element, the active manager selectively engage to prevent a predetermined thermal state that engages the hinge brake to prevent rotation of the first and second housing portions. 6. The information handling system of claim 1 further comprising: a first magnet disposed in the first housing portion; and a second magnet disposed in the second housing portion; wherein the hinge manager selectively aligns opposing polarities of the first and second magnets when the first and second housing portions have the closed position for a predetermined time. 7. The information handling system of claim 1 wherein: the hinge brake provides a variable torque at the hinge; and the hinge manager commands a variable torque based upon the predetermined thermal state. 8. The information handling system of claim 1 wherein: the display comprises a plastic organic light emitting diode display film; the hinge manager comprises an embedded controller interfaced with a central processing unit; and the hinge manager commands the central processing unit to execute heat generating code to direct thermal energy at the display. 9. A method for managing information handling system rotational orientation, the method comprising: monitoring thermal conditions associated with a display integrated in the information handling system to detect a thermal state; in response to a first predetermined thermal state detected by the monitoring, restricting changes to the rotational orientation; in response to the restricting changes to the rotational orientation, generating heat proximate the display; in response to the generating heat, monitoring for a second predetermined thermal state; and in response to the second predetermined thermal state, ceasing the restricting changes to the rotational orientation. 10. The method of claim 9 wherein the generating heat proximate the display further comprises executing a heat generating code on a central processing unit of the information handling system. 11. The method of claim 9 wherein the generating heat proximate the display further comprises applying current to a heat generation element. 12. The method of claim 9 further comprising: in response to the restricting changes to the rotational orientation, generating a cooling airflow proximate the display to draw thermal energy from the display; in response to the generating a cooling airflow, monitoring for a second predetermined thermal state; and in response to the second predetermined thermal state, ceasing the restricting changes to the rotational orientation. 13. The method of claim 9 further comprising: monitoring rotational orientation to detect a time during which the rotational orientation is maintained; and adjusting thermal conditions associated with the display that determine the first predetermined thermal state based upon the time. 14. The method of claim 9 wherein restricting changes to the rotational orientation further comprises locking a hinge of the information handling system at the rotational orientation. 15. The method of claim 9 wherein restricting changes to the rotational orientation further comprises increasing torque applied at a hinge of the information handling system, the torque working against rotational movement. 16. A display fold management system comprising: a hinge having a brake, the brake selectively engaged to restrict hinge rotation, the hinge having a support side that supports a flexible display in a planar position and a folded position; one or more thermal sensors disposed to measure a thermal state of the flexible display; a controller executing a hinge manager stored in non-transitory memory, the controller interfaced with the brake and the one or more thermal sensors, the hinge manager locking the hinge brake in response to the one or more thermal sensors detecting a first predetermined thermal state; and a heating element operable to generate thermal energy proximate the flexible display and interfaced with the controller; wherein the hinge manager in response to the first predetermined thermal state commands the heating element to generate thermal energy to achieve a second predetermined thermal state, the hinge manager releasing the hinge brake in response to the second predetermined state. 17. The display fold management system of claim 16 further comprising: a cooling element operable to remove thermal energy proximate the flexible display and interfaced with the controller; wherein the hinge manager in response to the first predetermined thermal state commands the cooling element to remove thermal energy to achieve a second predetermined thermal state, the hinge manager releasing the hinge brake in response to the second predetermined state.