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Multiphase polymeric binders for binder assisted forming of sinterable powder bodies are formulated to demonstrate improved rheological properties in the form of newtonion or near newtonion flow behavior thereby reducing dependence of binder viscosity on shear by tailoring the molecular weight and m

Multiphase polymeric binders for binder assisted forming of sinterable powder bodies are formulated to demonstrate improved rheological properties in the form of newtonion or near newtonion flow behavior thereby reducing dependence of binder viscosity on shear by tailoring the molecular weight and molecular weight distribution of the polymeric binder phases and the resulting polymer admixtures of the invention demonstrate shear rate independent behavior. Reduction of interfacial tension between binder phases by introduction of at least one macromolecule with separate segments selected to be compatible with the individual phases of the binder further increases processing performance as does use of polymer macromolecules having attributes that allow them to act as surface active materials at the interface of the sinterable powder and the multiphase binder composition. Predispersion of the surface active materials in the powder is facilitated by emulsification thereof in water prior to admixture with the powder.

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What is claimed: 1. A multi-phase temporary binder composition for binder assisted forming of sinterable powders comprising a polymeric backbone phase and a polymeric extractable phase, the composition and each polymeric phase characterized by newtonion or near newtonion flow behavior, a narrow mol

What is claimed: 1. A multi-phase temporary binder composition for binder assisted forming of sinterable powders comprising a polymeric backbone phase and a polymeric extractable phase, the composition and each polymeric phase characterized by newtonion or near newtonion flow behavior, a narrow molecular weight distribution, and an average molecular weight of about the critical entanglement molecular weight. 2. The binder composition according to claim 1 including a polymeric compatibilizer. 3. The binder composition according to claim 1 including a macromolecular surfactant. 4. The binder composition according to claim 1 including a polymeric surfactant and a polymeric compatibilizer. 5. The binder composition according to claim 4 including a macromolecular surfactant. 6. The multiphase temporary binder composition according to claim 1, comprising a backbone phase of polyoxymethylene having a molecular weight of about 26,000, polypropylene or polypropylene copolymer having a molecular weight of about 22,000 to 23,000 as the backbone phase and polyethylene glycol having a molecular weight of about 20,000 as the extractable phase. 7. The temporary binder composition according to claim 2 in which the polymeric compatibilizer is selected from the group consisting of polypropylene molecular weight 3900 grafted with polytetrahydrofuran molecular weight 2000, polypropylene molecular weight 25,000 grafted with polyethylene glycol 20,000, and ethylene oxide/propylene oxide block copolymer 3100. 8. The binder composition according to claim 6, wherein the backbone phase is about 25 to 35 weight percent and the extractable phase is about 65 to 75 weight percent of the binder polymer material. 9. A sinterable powder feedstock comprising a multiphase temporary binder according to claim 1 and a sinterable powder comprising from about 45 to about 75 volume percent of the feedstock. 10. A sinterable powder feedstock comprising a multiphase temporary binder according to claim 2 and a sinterable powder comprising from about 45 to about 75 volume percent of the feedstock. 11. A sinterable powder feedstock comprising a multiphase temporary binder according to claim 3 and a sinterable powder comprising from about 45 to about 75 volume percent of the feedstock. 12. A sinterable powder feedstock comprising a polymeric backbone phase, a polymeric extractable phase according to claim 1, a sinterable metal or metal alloy powder, and a macromolecular polymer surfactant composition which is compatible with the polymeric components of the binder phases and also with the sinterable powder component of the feedstock. 13. A multiphase polymeric binder composition for binder assisted forming of sinterable powder feedstock formulations comprising a polymeric binder composition according to claim 1 and polymeric macromolecular compatibilizer having multiple segments some of which are compatible with the backbone phase and others of which are compatible with the extractable phase. 14. The binder composition according to claim 5 wherein the macromolecular surfactant is polypropylene glycol, polypropylene with grafted maleic anhydride, or polypropylene glycol and a dimer acid. 15. The multiphase binder composition according to claim 2 wherein the backbone phase is polypropylene and the extractable phase is polyethylene glycol, and the compatibilizer is a copolymer of ethylene oxide and propylene oxide. 16. The multiphase binder composition of claim 7 wherein the block copolymer is a triblock having propylene oxide segments at the chain and ethylene oxide segments in the middle of the chain, having a molecular weight of about 3100 with about 40 percent of the molecule being derived from ethylene oxide. 17. The binder composition of claim 7 wherein the compatibilizer is a graft copolymer having a backbone chain of polypropylene with polyethylene glycol side chains. 18. A binder feedstock composition comprising between 45 and 75 volume percent sinterable powder and, the balance, binder constituents according to claim 1 comprising, as percentage of binder weight, from about 25% to about 35% polypropylene copolymer, from about 45% to 65% polyethylene glycol, from about 1% to about 5% ethylene oxide/propylene oxide block copolymer, from about 5% to 10% polypropylene/polyethylene glycol graft copolymer, from about 1% to 3% antioxidant or stabilizer and from about 1% to 8% surfactant. 19. The binder composition for binder assisted formation of sinterable powder according to claim 1 comprising a backbone phase comprising a polypropylene/ polyethylene copolymer, an extractable phase comprising polyethylene glycol, a first compatibilizer comprising polypropylene/polytetrahydrofuran graft copolymer, and a second compatibilizer comprising an ethylene oxide/propylene oxide copolymer. 20. The method for making a multi-phase temporary binder composition according to claim 1 for binder assisted forming of sinterable powders comprising selecting a polymeric backbone phase and selecting a polymeric extractable phase, the composition and each polymeric phase characterized by newtonion or near newtonion flow behavior, a narrow molecular weight distribution, and an average molecular weight of about the critical entanglement molecular weight and admixing the selected phase polymers to provide said temporary binder composition. 21. A method for making a feedstock composition including a sinterable powder and a multiphase polymeric binder composition according to claim 1 and a polymeric macromolecule having attributes of functionality as surface active agents at the surface of the sinterable powder and the multiphase binder, said method comprising predispersing the macromolecule and optionally any conventional surfactant as an emulsion into the sinterable powder prior compounding the feedstock composition. 22. The method for making a feedstock composition according to claim 21 wherein the sinterable powder comprises from about 45 to about 75 volume percent of the feedstock. 23. The temporary binder composition according to claim 1 comprising a polypropylene copolymer at a molecular weight of 22,500 at a weight percentage of 27 percent, a polyethylene glycol at a molecular weight of 20,000 at a weight percentage of 63 percent, a graft copolymer of polypropylene at a molecular weight of 3900 and polytetrahydrofuran at a molecular weight of 2000 at a weight percentage of 3 percent, a polypropylene oxide at a molecular weight of 4000 at a weight percentage of 3 percent, a maleic anhydride grafted polypropylene at a molecular weight of 3900 at a weight percentage of 3 percent and a dimer acid of a carbon length of 36 at a weight percentage of 1 percent. 24. The binder composition according to claim 1 comprising a polypropylene copolymer at a molecular weight of 22,500 at a weight percentage of 27 percent, a polyethylene glycol at a molecular weight of 20,000 at a weight percentage of 62.2 percent, a graft copolymer of polypropylene at a molecular weight of 3900 and polytetrahydrofuran at a molecular weight of 2000 at a weight percentage of 6 percent, a phenyltrimethoxy silane at a weight percentage of 2.8 percent and a maleic anhydride grafted polypropylene at a molecular weight of 3900 at a weight percentage of 2 percent. 25. The binder composition of claim 7 wherein the compatibilizer is a graft copolymer having a backbone chain of polytetrahydrofuran with polyethylene glycol side chains. 26. The binder composition according to claim 1 wherein the molecular weight distribution width is less than 3.5. 27. A multi-phase temporary binder composition for binder assisted forming of sinterable powders comprising a polymeric backbone phase and a polymeric extractable phase and a polymeric compatibilizer, the composition and each polymeric phase characterized by Newtonian or near Newtonian flow behavior, a narrow molecular weight distribution, and an average molecular weight of about the critical entanglement molecular weight. 28. The binder composition according to claim 27 comprising a conventional surfactant. 29. The binder composition according to claim 27 comprising a polypropylene copolymer at a molecular weight of 22,500 at a weight percentage of 27 percent, a polyethylene glycol at a molecular weight of 8,000 at a weight percentage of 62.2 percent, a graft copolymer of polypropylene at a molecular weight of 3900 and polytetrahydrofuran at a molecular weight of 2000 at a weight percentage of 6 percent, a phenyltrimethoxy silane at a weight percentage of 2.8 percent and a maleic anhydride grafted polypropylene at a molecular weight of 3900 at a weight percentage of 2 percent. 30. A method for making a feedstock composition including a sinterable powder and a multiphase polymeric binder composition according to claim 27 and a polymeric macromolecule having attributes of functionality as surface active agents at the surface of the sinterable powder and the multiphase binder, said method comprising predispersing the macromolecule and optionally any conventional surfactant as an emulsion into the sinterable powder prior compounding the feedstock composition. 31. A method for making a feedstock composition including a sinterable powder and a multiphase polymeric binder composition characterized by newtonion or near newtonion flow behavior, and a polymeric macromolecule having attributes of functionality as surface active agents at the surface of the sinterable powder and the multiphase binder, said method comprising predispersing the macromolecule and optionally any conventional surfactant as an emulsion into the sinterable powder prior compounding the feedstock composition.