Dual-element fuse with chemical trigger element and methods of manufacture

What is claimed is: 1. An electrical fuse comprising: a short circuit fusible element configured to interrupt a high overcurrent corresponding to a short circuit condition, wherein the short circuit fusible element comprises first and second perforated walls, the first and second perforated walls extending in spaced apart parallel planes to one another; a trigger element connected in series with the short circuit fusible element, wherein the trigger element comprises a pair of metal elements separated by a gap, the gap extending through a full cross-sectional area of each of the pair of metal elements, the gap covered by a filler element comprising tin such that at least a portion of the filler element is electrically connected in series with each of the pair of metal elements; and an arc barrier material locally disposed on opposing sides of the filler element and comprising a silicone material, wherein the trigger element is configured to interrupt a predefined overload condition with a predetermined time delay, the overload condition comprising a low overcurrent through the trigger element lower than the high overcurrent, wherein the filler element covering the gap is configured as a heat sink to delay a rate of temperature increase and delay melting of the filler element based on a flow of the low overcurrent through the trigger element, and wherein at least a portion of the filler element is configured to diffuse into at least one of the pair of metal elements under the predefined overload condition to permit the trigger element to provide the predetermined time delay for interrupting the predefined overload condition. 2. The electrical fuse of claim 1 , wherein the pair of metal elements comprise an identical metal. 3. The electrical fuse of claim 2 , wherein each of the pair of metal elements comprises a planar sheet of metal or metal alloy. 4. The electrical fuse of claim 2 , wherein each of the pair of metal elements comprises copper. 5. The electrical fuse of claim 1 , wherein at least one of the pair of metal elements comprises copper, and wherein a portion of the copper is overlaid with tin. 6. The electrical fuse of claim 1 , wherein at least one of the pair of metal elements defines an opening, and wherein the opening is covered by tin. 7. The electrical fuse of claim 1 , wherein the arc barrier material extends between the filler element and the short circuit fusible element. 8. The electrical fuse of claim 1 , wherein the silicone material is a room temperature vulcanizing material. 9. The electrical fuse of claim 7 , wherein the arc barrier material extends on opposing sides of the filler element. 10. The electrical fuse of claim 7 , where the arc barrier material surrounds the filler element. 11. The electrical fuse of claim 1 , wherein at least one of the pair of metal elements includes an upper surface and a lower surface opposing the upper surface, and wherein portions of each of the upper and lower surfaces are overlaid with the filler element. 12. The electrical fuse of claim 1 , the short circuit fusible element further comprising a third perforated wall extending perpendicularly to and between the first and second perforated walls. 13. The electrical fuse of claim 12 , wherein the trigger element extends parallel to the first and second perforated walls. 14. The electrical fuse of claim 1 , wherein at least one of the pair of metal elements is provided with a Metcalf-effect element. 15. The electrical fuse of claim 14 , wherein the electrical fuse has an amperage rating of 35 A to 600 A. 16. The electrical fuse of claim 15 , wherein the trigger element is operable with a minimum 10 second time delay at 500% of rated current. 17. The electrical fuse of claim 1 , wherein the filler element comprises a block of filler material filling the gap and encasing at least a portion of each of one or more planar surfaces of one or more of the pair of metal elements. 18. The electrical fuse of claim 17 , wherein the block of filler material encases at least a portion of a top planar surface and at least a portion of a bottom planar surface of each of the pair of metal elements. 19. The electrical fuse of claim 1 , wherein a first portion of the arc barrier material is provided abutting the filler element and disposed between the short circuit fusible element and the filler element. 20. The electrical fuse of claim 19 , wherein the filler element is disposed between the first portion of the arc barrier material and a second portion of the arc barrier material.