Safety deflation wheel seal design

What is claimed is: 1. A wheel comprising: an inner wheel half defining a plurality of inner bolt apertures and having an inner surface extending from a first outer diameter surface to a first inner diameter surface, wherein the inner surface is planar from the first outer diameter surface to the first inner diameter surface relative to the inner wheel half; and an outer wheel half defining a plurality of outer bolt apertures and having a mating surface extending from a second outer diameter surface to a second inner diameter surface, wherein the second outer diameter surface extends towards the inner wheel half to define an airflow path between the second outer diameter surface and the first outer diameter surface of the inner wheel half, wherein the mating surface is planar from the second outer diameter surface to the second inner diameter surface relative to the outer wheel half, the plurality of outer bolt apertures configured to be aligned with the plurality of inner bolt apertures such that each of a plurality of bolts may be received by one of the plurality of outer bolt apertures and one of the plurality of inner bolt apertures, forming a seal between the mating surface and the inner surface in response to each of the plurality of bolts being tightened, wherein, in response to a predetermined number of bolts becoming loose, a first portion of the mating surface may separate from a second portion of the inner surface, breaking the seal. 2. The wheel of claim 1 , wherein the predetermined number of bolts is between 2 and 4. 3. The wheel of claim 1 , wherein the inner surface defines an annular cavity configured to receive an O-ring, such that an O-ring seal is formed by the O-ring between a contact surface of the mating surface and the inner surface. 4. The wheel of claim 3 , wherein the O-ring is compressed in an axial direction relative to the wheel in response to each of the plurality of bolts being tightened. 5. The wheel of claim 4 , wherein, in response to the predetermined number of bolts becoming loose, the O-ring becomes uncompressed. 6. The wheel of claim 1 , wherein the inner wheel half defines a first flange and the outer wheel half defines a second flange configured to have a tire disposed between the first flange and the second flange. 7. The wheel of claim 6 , wherein a volume is defined between the tire, the first outer diameter surface of the inner wheel half and the second outer diameter surface of the outer wheel half such that in response to the seal being formed, the volume is pressurizable. 8. The wheel of claim 7 , wherein in response to the first portion of the mating surface being separated from the second portion of the inner surface, pressurized air in the volume exits the volume through the airflow path and between the first portion of the mating surface and the second portion of the inner surface. 9. The wheel of claim 3 , wherein the contact surface is flat relative to the mating surface. 10. A wheel comprising: an inner wheel half defining a plurality of inner bolt apertures, defining an annular cavity and having an inner surface extending from a first outer diameter surface to a first inner diameter surface, wherein the second outer diameter surface extends towards the inner wheel half to define an airflow path between the second outer diameter surface and the first outer diameter surface of the inner wheel half, wherein the inner surface is planar from the first outer diameter surface to the first inner diameter surface relative to the inner wheel half; an outer wheel half defining a plurality of outer bolt apertures and having a mating surface extending from a second outer diameter surface to a second inner diameter surface, wherein the mating surface is planar from the second outer diameter surface to the second inner diameter surface relative to the outer wheel half, the plurality of outer bolt apertures configured to be aligned with the plurality of inner bolt apertures such that each of a plurality of bolts may be received by one of the plurality of outer bolt apertures and one of the plurality of inner bolt apertures; and an O-ring configured to be positioned within the annular cavity such that in response to each of the plurality of bolts being tightened, a seal is formed by compression of the O-ring between a contact surface of the mating surface and the inner surface, wherein in response to a predetermined number of bolts becoming loose, compression of the O-ring is reduced, breaking the seal. 11. The wheel of claim 10 , wherein the predetermined number of bolts is between 2 and 4. 12. The wheel of claim 10 , wherein the inner wheel half defines a first flange and the outer wheel half defines a second flange configured to have a tire disposed between the first flange and the second flange. 13. The wheel of claim 12 , wherein a volume is defined between the tire, the first outer diameter surface of the inner wheel half and the second outer diameter surface of the outer wheel half such that in response to the seal being formed, the volume is pressurizable. 14. The wheel of claim 13 , wherein in response to the predetermined number of bolts becoming loose, pressurized air may escape the volume through the airflow path and between the mating surface, the inner surface and the O-ring. 15. The wheel of claim 10 , wherein the contact surface is flat relative to the mating surface.