Cutting device tooth mounting arrangement

What is claimed is: 1. A cutting device, comprising: a circular plate concentric about a rotation axis and having an outer peripheral edge defining a plurality of mounting lugs extending radially out from the outer peripheral edge and spaced apart angularly along the outer peripheral edge, the mounting lugs each defining a first mounting profile forming a V-shaped groove with first and second flat mount surfaces extending from a first side to a second side opposite the first side of each mounting lug in an axial direction of the circular plate such that the V-shaped groove extends axially from the first side to the second side of each mounting lug, the outer peripheral edge defining a plurality of reliefs and a plurality of convex arcuate sections, each relief forming a radially inwardly extending circumferential recess in the outer peripheral edge extending from one of the plurality of mounting lugs to one of the plurality of convex arcuate sections, each convex arcuate section extending from one of the plurality of reliefs to one of the plurality of mounting lugs and together with the one of the plurality of reliefs spanning a distance between consecutive ones of the plurality of mounting lugs; a plurality of teeth, each tooth mounted to a respective one of the mounting lugs and defining a second mounting profile opposite a cutting profile of the tooth, the second mounting profile having first and second flat tooth surfaces extending between first and second sides of each tooth in the axial direction of the circular plate, and a radially inner side of each tooth is radially spaced from the outer peripheral edge of the circular plate by a gap clearance defined by each relief; and a plurality of fasteners each coupling one of the plurality of teeth to one of the plurality of mounting lugs, each of the fasteners mounting the respective one of the plurality of teeth and clamping the flat tooth surfaces thereof against the flat mount surfaces of the respective mounting lug; wherein the gap clearance of each relief extends radially inwardly closer to the rotation axis than the plurality of convex arcuate sections and extends radially outwardly at least as far as the cutting profile of each tooth so that each tooth is spaced from the outer peripheral edge of the circular plate. 2. The cutting device of claim 1 , wherein each tooth is configured to mount to one of the mounting lugs in two alternative orientations to alternatively position one of a plurality of cutting tips of the cutting profile at a radially outward position with respect to another of the plurality of cutting tips. 3. The cutting device of claim 1 , wherein the cutting profile of each tooth includes two spaced apart cutting tips extending across the tooth uniformly to the first and second sides of the tooth. 4. The cutting device of claim 1 , wherein a through hole extends along a centerline passing through the cutting profile and the second mounting profile of each tooth. 5. A cutting device, comprising: a circular plate concentric about a rotation axis and having an outer peripheral edge defining a plurality of mounting lugs extending radially out from the outer peripheral edge and spaced apart angularly along the outer peripheral edge, the mounting lugs each defining a first mounting profile forming a V-shaped groove with first and second flat mount surfaces extending from a first side to a second side opposite the first side of each mounting lug in an axial direction of the circular plate such that the V-shaped groove extends axially from the first side to the second side of each mounting lug, the outer peripheral edge defining a plurality of reliefs and a plurality of convex arcuate sections, each relief forming a radially inwardly extending circumferential recess in the outer peripheral edge extending from one of the plurality of mounting lugs to one of the plurality of convex arcuate sections, each convex arcuate section extending from one of the plurality of reliefs to one of the plurality of mounting lugs and together with the one of the plurality of reliefs spanning a distance between consecutive ones of the plurality of mounting lugs; a plurality of teeth, each tooth mounted to a respective one of the mounting lugs and defining a second mounting profile opposite a cutting profile of the tooth, the second mounting profile having first and second flat tooth surfaces extending between first and second sides of each tooth in the axial direction of the circular plate, and a radially inner side of each tooth is radially spaced from the outer peripheral edge of the circular plate by a gap clearance defined by each relief; and a plurality of fasteners each coupling one of the plurality of teeth to one of the plurality of mounting lugs, each of the fasteners mounting the respective one of the plurality of teeth and clamping the flat tooth surfaces thereof against the flat mount surfaces of the respective mounting lug; wherein for each tooth the second mounting profile projects away from the cutting profile farther at a central region of the second mounting profile than at opposite side regions of the second mounting profile where the first and second flat tooth surfaces are located; and wherein the radially inner side of each tooth is at a radial distance from the rotation axis that is at least as close to the rotation axis as the plurality of convex arcuate sections of the outer peripheral edge. 6. A cutting device, comprising: a circular plate concentric about a rotation axis and having an outer peripheral edge defining a plurality of mounting lugs extending radially out from the outer peripheral edge and spaced apart angularly along the outer peripheral edge, the mounting lugs each defining a first mounting profile forming a V-shaped groove with first and second flat mount surfaces extending from a first side to a second side opposite the first side of each mounting lug in an axial direction of the circular plate such that the V-shaped groove extends axially from the first side to the second side of each mounting lug, the outer peripheral edge defining a plurality of reliefs and a plurality of convex arcuate sections, each relief forming a radially inwardly extending circumferential recess in the outer peripheral edge extending from one of the plurality of mounting lugs to one of the plurality of convex arcuate sections, each convex arcuate section extending from one of the plurality of reliefs to one of the plurality of mounting lugs and together with the one of the plurality of reliefs spanning a distance between consecutive ones of the plurality of mounting lugs; a plurality of teeth, each tooth mounted to a respective one of the mounting lugs and defining a second mounting profile opposite a cutting profile of the tooth, the second mounting profile having first and second flat tooth surfaces extending between first and second sides of each tooth in the axial direction of the circular plate, and a radially inner side of each tooth is radially spaced from the outer peripheral edge of the circular plate by a gap clearance defined by each relief; and a plurality of fasteners each coupling one of the plurality of teeth to one of the plurality of mounting lugs, each of the fasteners mounting the respective one of the plurality of teeth and clamping the flat tooth surfaces thereof against the flat mount surfaces of the respective mounting lug; wherein the radially inner side of each tooth is at a radial distance from the rotation axis that is at least as close to the rotation axis as the plurality of convex arcuate sections of the outer peripheral edge.