Articles for high temperature service and methods for their manufacture

The invention claimed is: 1. A method for making an article, comprising: providing a substrate; disposing a self-sealing layer over the substrate, wherein the self-sealing layer comprises an alkaline-earth aluminosilicate; disposing a bondcoat between the substrate and the self-sealing layer; heating the self-sealing layer to a sealing temperature in a range from about 950 degrees Celsius to about 1350 degrees Celsius at which at least a portion of the self-sealing layer will flow: and flowing a liquid or glassy phase material from the self-sealing layer into cracks and pores within the self-sealing layer; and disposing a topcoat over the self-sealing layer, wherein the topcoat comprises a rare earth monosilicate, a rare earth disilicate, or combinations thereof, wherein the hondcoat comprises at least one material selected from the group consisting of elemental silicon and a silicide. 2. The method of claim 1 , further comprising disposing an intermediate layer between the self-sealing layer and the bondcoat, wherein the intermediate layer comprises a barrier material that is substantially inert with respect to silica. 3. The method of claim 2 , wherein the barrier material comprises yttrium disilicate. 4. The method of claim 1 , wherein the substrate comprises a ceramic matrix composite material. 5. A method for making an article, comprising: providing a substrate comprising silicon; disposing a bondcoat over the substrate, the bondcoat comprising silicon; disposing an intermediate layer over the bondcoat, wherein the intermediate layer comprises a barrier material that is substantially inert with respect to silica; disposing a self-sealing layer over the intermediate layer, the sealing layer comprising a alkaline earth aluminosilicate having a composition in the range bounded by a region in alumina/silica/alkaline-earth oxide compositional space defined by a first line connecting a first composition point at about (11.8 mole % alumina, 76.1 mole % silica, 12.1 mole alkaline-earth oxide) with a second composition point at about (58.6 mole % alumina, 29,8 mole % silica, 11.6 mole % alkaline-earth oxide); a second line connecting the second composition point with a. third composition point at about (44.3 mole % alumina, 8.2 mole % silica, 47.5 mole %) alkaline-earth oxide); a third line connecting the third composition point with a fourth composition point at about (13.6 mole 13.6% alumina, 43.8 mole % silica, 42.6 mole % alkaline-earth oxide); and a fourth line connecting the fourth composition point with the first composition point; heating the sealing layer to a sealing temperature in a range from about 950 degrees Celsius to about 1350 degrees Celsius at which at least a portion of the sealing layer will flow, flowing a liquid or glassy phase material from the sealing layer into cracks and pores within the sealing layer and maintaining the sealing layer at the sealing temperature for an effective time to form a substantially hermetic layer; and disposing a topcoat over the sealing layer, wherein the topcoat comprises a rare earth monosilicate, a rare earth disilicate, or combinations thereof.