Break-away support material for additive manufacturing

The invention claimed is: 1. A support material for use in an additive manufacturing system to print a support structure for a three-dimensional part printed from a polyethermide part material, the support material comprising: a base resin comprising one or more first polyarylethersulfones, wherein the base resin is substantially miscible with the polyethermide part material and has a glass transition temperature that ranges from about 205° C. to about 225° C.; and a dispersed resin comprising one or more thermoplastic polymers comprises one or more second polyarylethersulfones, a blend of a polyphenyleneoxide and a polystyrene, mixtures thereof, or a polyetherimide, wherein the dispersed resin is substantially immiscible with the base resin such that the support material has non-uniform island in a sea configuration, wherein the base resin constitutes from about 85% to about 95% by weight of the base resin and the dispersed resin; wherein the base resin and the dispersed resin each have a thermal stability such that less than 10% by weight of either of the base resin or the dispersed resin thermally degrades when the support material is exposed to 350° C. for a 5-minute duration; and wherein the support material is configured for use in the additive manufacturing system as a filament or powder that is configured to be melted in and extruded from a print head retained by the additive manufacturing system and for printing the support structure from the support material in coordination with printing of the three-dimensional part from the part material in a layer-by-layer manner and have a relative adhesion with the polyethermide part material in the range of 2.4 and 3.1, such that the non-uniform islands of dispersed resin sufficiently disrupt the bonding between the polyethermide part material and the base resin to allow the support structure to be separated from the three-dimensional part with a force. 2. The support material of claim 1 , wherein the one or more first polyarylethersulfone of the base resin comprises a polysulfone. 3. The support material of claim 1 , wherein the one or more first polyarylethersulfone comprises a polyethersulfone. 4. The support material of claim 2 , wherein the one or more thermoplastic polymers of the dispersed resin comprises a polysulfone or a blend of a polyphenyleneoxide and a polystyrene and mixtures thereof. 5. The support material of claim 1 , wherein the one or more first polyarylethersulfones of the base resin comprise a polysulfone, and wherein the one or more thermoplastic polymers of the dispersed resin comprise a polyetherimide. 6. A support material for use in an additive manufacturing system to print a support structure for a three-dimensional part printed from a polyethermide part material, the support material comprising: 85% to about 95% by weight a first polyarylethersulfone having a glass transition temperature ranging from about 205° C. to about 225° C., wherein the first polyarylethersulfone is substantially miscible with the polyethermide part material; and a second polyarylethersulfone that is substantially immiscible with first polyarylethersulfone and the polyethermide part material such that the support material has a non-uniform island in a sea configuration; wherein the support material is configured for use in the additive manufacturing system as a filament or powder that is configured to be melted in and extruded from a print head retained by the additive manufacturing system and for printing the support structure from the support material in coordination with printing of the three-dimensional part from the part material in a layer by layer manner and have a relative adhesion with the polyethermide part material in the range of 2.4 and 3.1, such that the non-uniform islands of dispersed resin sufficiently disrupt the bonding between the part material and the base resin to allow the support structure to be separated from the three-dimensional part with a force. 7. The support material of claim 6 , wherein the first polyarylethersulfone comprises a polyethersulfone. 8. The support material of claim 6 , wherein the second polyarylethersulfone comprises a polysulfone. 9. The support material of claim 6 , wherein the support material is substantially free of polymers that thermally degrade by more than 5% by weight when exposed to 350° C. for a 5-minute duration and to 200° C. for a 50-hour duration. 10. The support material of claim 6 , wherein the second polyarylethersulfone constitutes from about 5% by weight to about 15% by weight of the support material. 11. A method for printing a three-dimensional part with an additive manufacturing system, the method comprising: providing a polyethermide part material having a first glass transition temperature; providing a support material having a base resin comprising 85% to about 95% by weight a first polyarylethersulfone having a glass transition temperature ranging from about 205° C. to about 225° C., wherein the first polyarylethersulfone is substantially miscible with the polyethermide part material and a second polyarylethersulfone that is substantially immiscible with first polyarylethersulfone and the polyethermide part material such that the support material has an non-uniform island in a sea configuration, wherein the base resin is substantially miscible with the polyethermide part material and, wherein the support material is configured for use in the additive manufacturing system as a filament or powder that is configured to be melted in and extruded from a print head retained by the additive manufacturing system; heating a chamber of the additive manufacturing system to at least 185° C.; melting the support material with a melt processing temperature greater than about 350° C.; forming layers of the three-dimensional part from the polyethermide part material; forming layers of a support structure from the molten support material in the heated chamber wherein as the layers of support structure are formed the non-uniform islands of the second polyarylsulfone form areas at an interface with the printed layer of the three-dimensional part to weaken the bond between the three-dimensional part and the layers of support material and have a relative adhesion between the support material the polyethermide part material in the range of 2.4 and 3.1; removing the three-dimensional part and the support structure from the chamber, wherein less than 10% by weight of the support material of the removed support structure is thermally degraded; and separating the support structure from the removed three-dimensional part utilizing a force. 12. The method of claim 11 , wherein the first polyarylethersulfone comprises a polyethersulfone and the second polyarylethersulfone comprises a polysulfone. 13. The method of claim 11 , wherein less than 5% by weight of the support material of the removed support structure is thermally degraded. 14. The method of claim 11 , wherein less than 1% by weight of the support material of the removed support structure is thermally degraded.