3-d printed downhole components

What is claimed is: 1 . A downhole tool for use in a well comprising: a mandrel; a sealing element disposed about the mandrel for engaging the well in a set position of the tool; a retaining shoe at one of the first and second ends of the sealing element; and a slip wedge disposed about the mandrel abutting the retaining shoe characterized in that at least one of the retaining shoe and slip wedge is formed by a 3-D printing process. 2 . The downhole tool of claim 1 comprising: first and second retaining shoes at the first and second ends of the sealing element; first and second slip wedges disposed about the mandrel abutting the first and second shoes respectively; first and second slip rings for engaging the well in the set position of the tool; and first and second support rings for axially retaining the first and second slip rings; characterized in that at least one of the first and second support rings, first and second slip rings, first and second slip wedges and first and second retaining shoes are formed by a 3-D printing process. 3 . The tool of claim 2 , characterized in that the at least one of the first and second support rings, slip rings, slip wedges and shoes is formed from a thermoplastic material. 4 . The tool of claim 2 , characterized in that at the at least one of the first and second support rings, slip rings, slip wedges and shoes is formed using a material deposition process. 5 . The apparatus of claim 2 , characterized in that the first and second spacer rings are formed using a material deposition process. 6 . The apparatus of claim 2 , characterized in that the first and second retaining shoes are formed by using a material deposition process. 7 . The tool of claim 6 , wherein each of the first and second shoes comprise a plurality of first and second shoe segments, the first shoe segments comprising: a body portion, wherein the body portion engages the packer mandrel when the shoe is in an unset position; and a fin portion extending radially outwardly from the body portion for engaging an end of the sealing element. 8 . The downhole tool of claim 1 , characterized in that the mandrel is formed by a 3-D printing process. 9 . A retaining shoe for limiting the extrusion of a packer element assembly disposed about a packer mandrel, wherein the packer element assembly is movable from an unset to a set position in a wellbore and the packer assembly seals against the wellbore in the set position comprising: a plurality of first shoe segments encircling the packer mandrel, adjacent ones of the first shoe segments having gaps therebetween; and a plurality of second shoe segments disposed about the first shoe segments, adjacent ones of the second shoes having gaps therebetween, wherein the second shoe segments overlap the gaps between the first shoe segments, characterized in that at least a portion of the first and second shoe segments are manufactured using a 3-D printing process. 10 . The apparatus of claim 9 , wherein the at least a portion of the first and second shoe segments fabricated using the 3-D printing process are formed from ULTEM 9085. 11 . The retaining shoe of claim 9 , wherein the first shoe segments define a sloped, arcuate inner surface for engaging an end of the packer element assembly and wherein the second shoe segments define a sloped, arcuate inner surface for engaging a sloped arcuate outer surface of the first shoe segments. 12 . The retaining shoe of claim 9 characterized in that each of the first and second shoe segments are formed by a 3-D printing process. 13 . The retaining shoe of claim 12 , the 3-D printing process comprising a material deposition process. 14 . The retaining shoe of claim 13 , wherein the shoes are formed from a thermoplastic material having a tensile strength of at least 10,000 psi. 15 . A downhole tool comprising: a mandrel; a packer element disposed about the mandrel; and a shoe at the lower end of the packer element at least one slip ring positioned on the mandrel for engaging the well characterized in that at least one of the shoe and slip ring is comprised of a thermoplastic material and fabricated using a 3-D printing process. 16 . The downhole tool of claim 15 further comprising: upper and lower shoes at the upper and lower ends of the packer element; upper and lower slip ring assemblies positioned on the mandrel for engaging a well; and upper and lower spacer rings for axially retaining the upper and lower slip ring assemblies, characterized in that at least one of the shoes, slip ring assemblies, and spacer rings are comprised of a thermoplastic material and fabricated using a 3-D printing process. 17 . The downhole tool of claim 16 , wherein the at least one of the shoes, slip ring assemblies, and spacer rings is formed using a material deposition process. 18 . The downhole tool of claim 16 , wherein the spacer rings are comprised from ULTEM 9085. 19 . The downhole tool of claim 15 , characterized in that the mandrel is comprised of a thermoplastic material. 20 . The downhole tool of claim 19 , characterized in that the mandrel is fabricated using a 3-D printing process.