Degradable material time delay system and method

What is claimed is: 1. A time delay method, the method using a wellbore time delay tool to delay action on a wellbore device, wherein the method comprises: after positioning said wellbore tool in a wellbore casing, activating an actuating device to enable fluid communication between a mechanical restraining element and a reactive liquid such that a chemical reaction takes place between the mechanical restraining element and the reactive liquid, wherein the mechanical restraining element is directly attached to a firing pin of the wellbore device, the mechanical restraining element restrains the firing pin from moving, the reactive liquid is stored in a volume within the wellbore time delay tool, the reactive liquid causes a physical change in the mechanical restraining element, and the actuating device is located between the volume and the mechanical restraining element; releasing the restraint of the mechanical restraining element on the firing pin of the wellbore device as a result of a time period of chemical reaction on the mechanical restraining element; and triggering the wellbore device as the firing pin moves due to a fluid pressure accumulated in the volume of the wellbore time delay tool. 2. The time delay method of claim 1 wherein the actuating device is a rupture disk and the step of activating the actuating device comprises bursting the rupture disk by a pressure in the wellbore casing. 3. The time delay method of claim 1 wherein the step of triggering the wellbore device includes moving a piston. 4. The time delay method of claim 1 wherein the step of triggering the wellbore device includes opening a port. 5. The time delay method of claim 1 wherein the step of triggering the wellbore device includes unplugging the wellbore device. 6. The time delay method of claim 1 wherein the step of triggering the wellbore device includes causing a rotational movement of the wellbore device. 7. The time delay method of claim 1 wherein the time period for the chemical reaction in the step of releasing is a time delay for the step of triggering the wellbore device, and the time delay is determined by a composition of the reactive liquid. 8. The time delay method of claim 1 wherein the time period for the chemical reaction in the step of releasing causes a time delay between the step of activating and the triggering of the wellbore device, and the time delay is determined by a reaction rate of the reactive liquid with said mechanical restraining element under downhole conditions. 9. The time delay method of claim 1 wherein the time period for the chemical reaction in the step of releasing causes a time delay between the step of activating and the triggering the wellbore device, the time delay determined by a reaction time of the reactive liquid with the mechanical restraining element. 10. The time delay method of claim 1 wherein the time period for the chemical reaction in the step of releasing causes a time delay between the step of activating and the triggering of the wellbore device, the time delay determined by an extent of a masking off of a potential contact area of the mechanical restraining element with the reactive liquid. 11. The time delay method of claim 1 the step of activating the actuating device includes using an electronic switch. 12. The time delay method of claim 1 wherein the step of activating the actuating device includes using a magnetic field. 13. The time delay method of claim 1 wherein the step of activating the actuating device includes using stored energy in a spring. 14. The time delay method of claim 1 wherein the step of activating the actuating device includes using stored energy of a weight. 15. A method of using a wellbore time delay tool to delay a triggered action on a wellbore device, the method of using the downhole time delay tool comprises the steps of: after positioning the wellbore tool in a wellbore casing, rupturing a rupture disk to thereby enable fluid communication between a mechanical restraining element and a reactive liquid such that a chemical reaction takes place between the mechanical restraining element and the reactive liquid, wherein the mechanical restraining element is directly attached to a firing pin of the wellbore device, the mechanical restraining element restrains the firing pin from moving, the reactive liquid is stored in a volume within the wellbore time delay tool, the reactive liquid causes a physical change in the mechanical restraining element, and the rupture disk separates the volume from the mechanical restraining element; releasing the restraint of the mechanical restraining element on the firing pin of the wellbore device as a result of a time period of chemical reaction on the mechanical restraining element; and triggering the wellbore device as the firing pin moves due to a fluid pressure accumulated in the volume of the wellbore time delay tool. 16. The method of claim 15 , wherein the step of rupturing the rupture disk comprises rupturing with a pressure in the wellbore casing. 17. The method of claim 15 wherein the chemical reaction on the mechanical restraining element triggers the firing pin.