Interface layers and removable object supports for 3d printing

What is claimed is: 1 . An interface layer formed between an object being printed by a 3D printer and an underlying support structure, said interface layer comprising a glass-based material. 2 . The interface layer of claim 1 wherein said glass-based material comprises a silica glass. 3 . The interface layer of claim 1 wherein the glass-based material is selected to have a glass transition temperature below a sintering temperature used to process the object after it is printed. 4 . The interface layer of claim 1 , wherein the glass-based material is selected from the group consisting of soda-lime glass, borosilicate glass, lead-alkali glass and fiber glass or combinations thereof. 5 . The interface layer of claim 4 , further including a refractory metal. 6 . An interface layer formed between an object being printed by a 3D printer and an underlying support structure, said interface layer comprising a cermet. 7 . The interface layer of claim 7 , wherein the cermet is formed from a combination of steel and ceramic when said object being printed is steel. 8 . The interface layer of claim 8 , wherein the ceramic is aluminum oxide. 9 . The interface layer of claim 6 , wherein the cermet is selected from the group of titanium and zirconium oxide or combinations thereof, when the object being printed is titanium. 10 . The interface layer of claim 7 , wherein the cermet is selected from the group of titanium aluminide and zirconium dioxide when the object being printed is titanium. 11 . An interface layer formed between an object being printed by a 3D printer and an underlying support structure, said interface layer comprising a ceramic macrostructure. 12 . The interface layer of claim 11 , wherein said interface layer comprises ceramic paper. 13 . An interface layer formed between an object being printed by a 3D printer and an underlying support structure, said interface layer being formed from a polymer derived ceramic. 14 . A method of 3D printing an object having a dissolvable support using binder jetting, wherein the method comprises the steps of: forming layers of said object and support by selectively depositing a binder onto a bed of powder, introducing an agent during said 3D printing to locally modify corrosion characteristics of one or more regions of said object or support or of an interface layer therebetween to facilitate dissolution of the support from the object after printing and any subsequent processing is completed. 15 . The method of Clam 14 , wherein the agent is introduced through an inkjet print head. 16 . The method of claim 14 , wherein the agent is introduced by depositing a carbon black-laden suspension. 17 . The method of claim 14 , wherein the agent is introduced as a polymer that may be pyrolyzed to leave a carbon-containing deposit. 18 . The method of claim 14 wherein the locally modified one or more regions have a reduced corrosion characteristic. 19 . The method of claim 14 , wherein the locally modified one or more regions have an increased corrosion characteristic. 20 . A method of 3D printing an object having a dissolvable support by using an extrusion type 3D printer, wherein the method comprises the steps of: extruding and depositing materials to form the object and the support, introducing an agent during said 3D printing to locally modify corrosion characteristics of one or more regions of said object or said support or an interface layer therebetween, to facilitate dissolution of the support from the object after printing and any subsequent processing is completed. 21 . The method of claim 20 , wherein the agent is introduced by depositing a carbon black-laden suspension. 22 . The method of claim 20 , wherein the agent is introduced by depositing a polymer that may be pyrolyzed to leave a carbon-containing deposit. 23 . The method of claim 20 , wherein the agent locally modifies the one or more regions to have either a reduced corrosion characteristic or increased corrosion characteristic relative to the rest of the object or support.