Break-away traffic flange for a hydrant

That which is claimed is: 1. A hydrant comprising: a hydrant body; a lower barrel detachably secured to the hydrant body, a top end of the lower barrel contacting a lower end of the hydrant body; a traffic flange comprising a body portion defining an arcuate shape defining a non-whole fraction of a circle, the body portion comprising an upper surface, a lower surface, an inner radial surface, and an outer radial surface, the body portion defining a body portion width in a radial direction relative to a main axis of the traffic flange, the body portion further defining a plurality of fastening holes extending in an axial direction of the traffic flange relative to the main axis from the upper surface to the lower surface; and a break-away portion extending from the body portion and comprising a plurality of tabs extending radially inward in the radial direction from the inner radial surface of the body portion, a total width of the traffic flange in the radial direction of the traffic flange at each of the plurality of tabs greater than a total width of the traffic flange in the radial direction of the traffic flange between adjacent tabs of the plurality of tabs; and a plurality of fasteners securing the hydrant body to the lower barrel, each of the plurality of fasteners extending through a one of the plurality of fastening holes of the traffic flange, wherein each tab of the plurality of tabs, positioned in a radial direction, is adjacent to a corresponding fastening hole of the plurality of fastening holes. 2. The hydrant of claim 1 , wherein the body portion of the traffic flange is semicircular in shape, the body portion being a first body portion, the traffic flange further comprising a second body portion defining a semicircular shape. 3. The hydrant of claim 1 , wherein the traffic flange comprises a material having a tensile strength of at least about 60,000 psi. 4. The hydrant of claim 1 , each of the plurality of tabs defining a notch proximate to a base of the respective tab defined at an intersection between the tab and the body portion, each of the plurality of tabs defining a minimum tab thickness at a bottom of the corresponding notch that is less than a total tab thickness of the tab distal from the base of the tab. 5. The hydrant of claim 4 , wherein the notch tapers in cross-section toward the bottom of the notch. 6. The hydrant of claim 1 , wherein an angular tab width of each of the plurality of tabs is 17.5 degrees. 7. The hydrant of claim 1 , wherein each of the plurality of tabs is aligned along the radial direction of the traffic flange with a one of the plurality of fasteners. 8. The hydrant of claim 1 , wherein an angular tab width of each of the plurality of tabs is in a range of 13 to 20 degrees. 9. A traffic flange for a hydrant, the traffic flange comprising: a body portion defining an arcuate shape and comprising an upper surface, a lower surface, an inner radial surface, and an outer radial surface, the body portion defining a body portion width in a radial direction relative to a main axis of the traffic flange, the body portion further defining a plurality of holes extending in an axial direction of the traffic flange relative to the main axis from the upper surface to the lower surface; and a break-away portion extending from the body portion and comprising a plurality of tabs extending radially inward in the radial direction from the inner radial surface of the body portion, a total width of the traffic flange in the radial direction of the traffic flange at each of the plurality of tabs greater than a total width of the traffic flange in the radial direction of the traffic flange between adjacent tabs of the plurality of tabs, wherein each tab of the plurality of tabs, positioned in a radial direction, is adjacent to a corresponding fastening hole of the plurality of fastening holes. 10. The traffic flange of claim 9 , wherein the body portion of the traffic flange defines a semicircular shape. 11. The traffic flange of claim 9 , wherein the traffic flange comprises ductile iron. 12. The traffic flange of claim 9 , wherein each of the plurality of tabs defines a notch proximate to a base of the tab defined at an intersection between the tab and the body portion, each of the plurality of tabs defining a minimum tab thickness at a bottom of the corresponding notch that is less than a total tab thickness of the tab distal from the base of the tab. 13. The traffic flange of claim 9 , wherein an angular tab width of each of the plurality of tabs is in a range of 13 to 20 degrees. 14. The traffic flange of claim 9 , wherein each of the plurality of tabs is aligned along the radial direction with a one of the plurality of holes of the body portion. 15. The traffic flange of claim 9 , wherein the body portion of the traffic flange defines a circular shape. 16. The traffic flange of claim 15 , wherein the body portion defines a first half and a second half defining a monolithic whole, the first half and the second half defining a first notch at a first connection between the first half and the second half and a second notch at a second connection between the first half and the second half, each of the first notch and the second notch aligned with the radial direction. 17. A traffic flange for a hydrant, the traffic flange comprising: a monolithic body portion defining an arcuate shape comprising an upper surface, a lower surface, an inner radial surface, and an outer radial surface, the body portion defining a body portion width in a radial direction relative to a main axis of the traffic flange, the body portion further defining a plurality of holes extending in an axial direction of the traffic flange relative to the main axis from the upper surface to the lower surface; and a break-away portion extending from the body portion and comprising an upper surface and a lower surface opposite from the upper surface, the break-away portion extending radially inward in the radial direction from the inner radial surface of the body portion, the break-away portion defining a notch proximate to a base of the break-away portion defined at an intersection between the break-away portion and the body portion, the break-away portion further defining one of a plurality of tabs and a plurality of openings, each of the plurality of tabs extending radially inward in the radial direction from the inner radial surface of the body portion and each of the plurality of openings extending from the upper surface of the break-away portion to the lower surface of the break-away portion, each of the plurality of openings configured to weaken the traffic flange against loads applied to the break-away portion in the axial direction of the traffic flange. 18. The traffic flange of claim 17 , wherein the body portion defines a semicircular shape. 19. The traffic flange of claim 17 , wherein the notch is a first notch defined in the upper surface of the break-away portion, the break-away portion further defining a second notch in the lower surface of the break-away portion. 20. The traffic flange of claim 17 , wherein the break-away portion defines the plurality of openings. 21. The traffic flange of claim 17 , wherein the break-away portion comprises the plurality of tabs, a total width of the traffic flange in the radial direction at each of the plurality of tabs greater than a total width of the traffic flange in the radial direction of the traffic flange between adjacent tabs of the plurality of tabs.