Structural fuse with integral spacer plates

What is claimed is: 1. A structural fuse for use in affixing first and second structural members to each other, the structural fuse comprising: a fuse base configured to be affixed to the first structural member; a fuse plate configured to be affixed to the second structural member, the fuse plate comprising: a proximal section at a first end of the fuse plate adjacent the fuse base, a distal section at a second end of the fuse plate opposite the first end, and a yield section between the proximal and distal sections, the yield section having first and second edges defining a reduced width relative to a width between edges of the proximal and distal sections, and the yield section configured to yield; and first and second spacers integrally attached to the fuse plate, the first spacer positioned adjacent the first edge of the yield section, and the second spacer positioned adjacent the second edge of the yield section; wherein the first and second spacers are defined by respective channels formed in the fuse plate, each channel forming a land where each spacer remains affixed to the fuse plate. 2. The structural fuse of claim 1 , wherein the first and second spacers each comprise proximal and distal ends, and wherein the first and second spacers are integrally attached to the fuse plate at the distal ends of the spacers. 3. The structural fuse of claim 1 , wherein the first and second spacers each comprise proximal and distal ends, and wherein the first and second spacers are integrally attached to the fuse plate at the proximal ends of the spacers. 4. The structural fuse of claim 1 , wherein the first and second spacers each comprise proximal and distal ends, and wherein the first and second spacers are integrally attached to the fuse plate between the proximal and distal ends of the spacers. 5. The structural fuse of claim 1 , wherein each channel includes a channel hole defining a size of each land. 6. The structural fuse of claim 5 , wherein each channel cut includes a slit defining a width of each spacer. 7. The structural fuse of claim 6 , wherein the channel hole has a larger diameter than a width of the slit. 8. The structural fuse of claim 6 , wherein the channel hole has a diameter equal to a width of the slit. 9. The structural fuse of claim 1 , wherein each channel includes an inlet gap cut transversely into opposed edges of the fuse plate. 10. The structural fuse of claim 9 , wherein a width of the inlet gap, parallel to the edges of the fuse plate, is larger than an amount by which the yield section shrinks under compressive loads. 11. The structural fuse of claim 9 , wherein each channel cut further comprises a slit, extending from the inlet gap, parallel to the edges of the fuse plate. 12. The structural fuse of claim 11 , wherein a length of each inlet gap, transverse to the edges of the fuse plate, and a width of each slit, define a width of each spacer. 13. The structural fuse of claim 11 , wherein each slit ends in a channel hole defining a size of each land. 14. The structural fuse of claim 1 , wherein the fuse base and fuse plate are integrally formed with each other. 15. A structural fuse assembly for use in affixing first and second structural members to each other, the structural fuse comprising: a fuse base configured to be affixed to the first structural member; a fuse plate configured to be affixed to the second structural member, the fuse plate comprising: a proximal section at a first end of the fuse plate adjacent the fuse base, a distal section at a second end of the fuse plate opposite the first end, and a yield section between the proximal and distal sections, the yield section having first and second edges defining a reduced width relative to a width between edges of the proximal and distal sections, and the yield section configured to yield; first and second spacers integrally attached to the fuse plate, the first spacer positioned adjacent the first edge of the yield section, and the second spacer positioned adjacent the second edge of the yield section, wherein each of the first and second spacers comprising a set of one or more holes; a buckling restraint plate configured to cover the yield section and sandwich the yield section between the buckling restraint plate and second structural member to resist buckling of the yield section, wherein fasteners extend through the buckling restraint plate, through the one or more holes in the first and second spacers and into the second structural member; wherein the first and second spacers are defined by respective channels formed in the fuse plate, each channel forming a land where each spacer remains affixed to the fuse plate. 16. The structural fuse of claim 15 , wherein the first and second spacers each comprise proximal and distal ends, and wherein the first and second spacers are integrally attached to the fuse plate at the distal ends of the spacers. 17. The structural fuse of claim 15 , wherein the first and second spacers each comprise proximal and distal ends, and wherein the first and second spacers are integrally attached to the fuse plate at the proximal ends of the spacers. 18. The structural fuse of claim 15 , wherein the first and second spacers each comprise proximal and distal ends, and wherein the first and second spacers are integrally attached to the fuse plate between the proximal and distal ends of the spacers. 19. The structural fuse of claim 15 , wherein each channel includes a channel hole defining a size of each land. 20. The structural fuse of claim 19 , wherein each channel cut includes a slit defining a width of each spacer. 21. The structural fuse of claim 20 , wherein the channel hole has a larger diameter than a width of the slit. 22. The structural fuse of claim 20 , wherein the channel hole has a diameter equal to a width of the slit. 23. The structural fuse of claim 15 , wherein each channel includes an inlet gap cut transversely into opposed edges of the fuse plate. 24. The structural fuse of claim 23 , wherein a width of the inlet gap, parallel to the edges of the fuse plate, is larger than an amount by which the yield section shrinks under compressive loads. 25. The structural fuse of claim 23 , wherein each channel further comprises a slit, extending from the inlet gap, parallel to the edges of the fuse plate. 26. The structural fuse of claim 25 , wherein a length of each inlet gap, transverse to the edges of the fuse plate, and a width of each slit, define a width of each spacer. 27. The structural fuse of claim 25 , wherein each slit ends in a channel hole defining a size of each land.