Fission reactor with segmented cladding bodies having cladding arms with involute curve shape

What is claimed is: 1. A nuclear fission reactor structure comprising a plurality of layers, wherein each layer of the plurality of layers includes: an inner segment body including an inner opening extending axially from a first side of the inner segment body to a second side of the inner segment body; an intermediate segment body radially outward of the inner segment body; an outer segment body radially outward of the intermediate segment body; a first interior interface separating the inner segment body and the intermediate segment body; and a second interior interface separating the intermediate segment body and the outer segment body, wherein, in a cross-sectional plan view in a plane perpendicular to the axially extending inner opening: the inner segment body includes a plurality of inner cladding arms having a first involute curve shape that spirally radiates outward from a first radially inner end adjacent to the inner opening to a first radially outer end at the first interior interface, the intermediate segment body includes a plurality of intermediate cladding arms having a second involute curve shape that spirally radiates outward from a second radially inner end adjacent to the first interior interface to a second radially outer end at the second interior interface, and the outer segment body includes a plurality of outer cladding arms having a third involute curve shape that spirally radiates outward from a third radially inner end adjacent to the second interior interface to a third radially outer end at a radially outer surface of the outer segment body, wherein each of the first involute curve shape, the second involute curve shape, and the third involute curve shape have a different curvature, and wherein, collectively, the first involute curve shape, the second involute curve shape, and the third involute curve shape form an involute curve shape extending from the inner opening to the radially outer surface of the outer segment body. 2. The nuclear fission reactor structure according to claim 1 , wherein a projection of a surface of the involute curve shape extends across the first interior interface and the second interior interface and is coincident with each of a surface of one of the plurality of inner cladding arms, a surface of one of the plurality of intermediate cladding arms, and a surface of one of the plurality of outer cladding arms. 3. The nuclear fission reactor structure according to claim 1 , wherein each of the first involute curve shape, the second involute curve shape, and the third involute curve shape correspond to different portions of a continuous the involute curve shape extending from the inner opening to the radially outer surface of the outer segment body. 4. The nuclear fission reactor structure according to claim 3 , wherein a projection of a surface of the involute curve shape extends across the first interior interface and the second interior interface and is coincident with each of a surface of one of the plurality of inner cladding arms, a surface of one of the plurality of intermediate cladding arms, and a surface of one of the plurality of outer cladding arms. 5. The nuclear fission reactor structure according to claim 1 , wherein, in the involute curve shape, a radially outward end of a first inner cladding arm of the plurality of inner cladding arms contacts a radially inward end of a first intermediate cladding arm of the plurality of intermediate cladding arms, and a radially outward end of the first intermediate cladding arm contacts a radially inward end of a first outer cladding arm of the plurality of outer cladding arms. 6. The nuclear fission reactor structure according to claim 1 , wherein each of the plurality of inner cladding arms, the plurality of intermediate cladding arms, and the plurality of outer cladding arms include a plurality of chambers. 7. The nuclear fission reactor structure according to claim 6 , wherein the plurality of chambers in each cladding arm of the plurality of inner cladding arms, the plurality of intermediate cladding arms, and the plurality of outer cladding arms are separated from each other by a web. 8. The nuclear fission reactor structure according to claim 6 , wherein a number of the plurality of chambers in each inner cladding arm of the plurality of inner cladding arms is larger than a number of the plurality of chambers in each outer cladding arm of the plurality of outer cladding arms. 9. The nuclear fission reactor structure according to claim 6 , wherein the plurality of chambers is ten or less. 10. The nuclear fission reactor structure according to claim 6 , wherein a number of the plurality of chambers in each intermediate cladding arm of the plurality of intermediate cladding arms and a number of the plurality of chambers in each outer cladding arm of the plurality of outer cladding arms are the same. 11. The nuclear fission reactor structure according to claim 6 , wherein the plurality of chambers include one of a fissionable fuel composition and a moderator material. 12. The nuclear fission reactor structure according to claim 11 , wherein chambers at different locations along the cladding arm contain different fissionable fuel compositions. 13. The nuclear fission reactor structure according to claim 11 , wherein chambers at different locations along the cladding arm contain different moderator material. 14. The nuclear fission reactor structure according to claim 11 , wherein, when a fissionable fuel composition is located in a chamber, there is a space between at least a portion of one interior surface wall of the chamber and at least a portion of one exterior surface of a body formed of the fissionable fuel composition. 15. The nuclear fission reactor structure according to claim 1 , wherein the inner cladding arms have opposing side surfaces extending from the first side of the inner segment body to the second side of the inner segment body, and wherein at least one protrusion projects outwardly from at least one opposing side surface. 16. The nuclear fission reactor structure according to claim 15 , wherein each protrusion extends along the at least one opposing side surface continuously from a first end oriented toward the first side of the inner segment body to a second end oriented toward the second side of the inner segment body. 17. The nuclear fission reactor structure according to claim 15 , wherein each protrusion extends along the at least one opposing side surface discontinuously from a first end oriented toward the first side of the inner segment body to a second end oriented toward the second side of the inner segment body. 18. The nuclear fission reactor structure according to claim 15 , wherein the protrusion has a top surface distal from the at least one opposing side surface for which the protrusion projects, and wherein, when assembled in the inner segment body with a first inner cladding arm immediately adjacent a second inner cladding arm, the top surface of a protrusion on the first inner cladding arm contacts an opposing side surface on the second inner cladding arm and forms a channel between the first inner cladding arm and the second inner cladding arm. 19. The nuclear fission reactor structure according to claim 1 , wherein the inner segment body, the intermediate segment body, the outer segment body, the first interior interface, and second interior interface define a layer. 20. A nuclear fission reactor, comprising: a plurality of layers according to claim 19 , wherein the plura