Open tip downhole expansion tool

What is claimed is: 1. An open tip downhole expansion tool comprising: a single layer body including a frustoconical portion, the body having a base portion at a diametrically smaller part of the body and a tip portion at a diametrically larger part of the body, the body having a radially outer zone defined by being toward an outer surface of the body from a midline of a wall thickness of the body and a radially inner zone defined by being toward an inner surface of the body from the midline and having an axial length extending from the base portion to the tip portion; an outer compliance area in a material of the body along a length of the radially outer zone; and an inner compliance area in the material of the body along a length of the radially inner zone, the outer and inner compliance areas being located at different positions along the axial length of the body, the outer and inner compliance areas each causing the body to present a first resistance to deformation when the compliance areas are in a first condition and a higher resistance to deformation of the body when the compliance areas are in a set condition. 2. The tool as claimed in claim 1 wherein at least one of the radially inner zone and radially outer zone is within 8 percent of ½ a radial thickness of the material of the frustoconical portion and tip portion. 3. The tool as claimed in claim 1 wherein one of the radially inner zone and radially outer zone is within 8 percent of ¼ of a radial thickness of the material of the frustoconical portion and tip portion. 4. The tool as claimed in claim 3 wherein the outer compliance area or inner compliance area extends from an outer or inner radial surface, respectively, of the frustoconical portion and tip portion to a depth of between within 8 percent of ¼ and within 8 percent of ¾ of a radial thickness of the material of the frustoconical portion and tip portion. 5. The tool as claimed in claim 1 wherein at least one of the outer compliance area and the inner compliance area is easier to deform than surrounding areas of the body. 6. The tool as claimed in claim 5 wherein the at least one of the outer compliance area and the inner compliance area is a reduced material density relative to surrounding areas of the body. 7. The tool as claimed in claim 1 wherein at least one of the inner compliance area and the outer compliance area is a plurality of compliance areas. 8. The tool as claimed in claim 7 wherein the plurality of compliance areas each extend from a surface of the frustoconical portion and tip portion into the material of the frustoconical portion and tip portion. 9. The tool as claimed in claim 1 wherein the single layer of the body is continuous.