Polycrystalline diamond constructions having improved thermal stability

What is claimed is: 1. A method for making a polycrystalline diamond construction comprising the steps of: treating a polycrystalline diamond body comprising a plurality of bonded together diamond crystals and a solvent catalyst material to remove substantially all of the solvent catalyst material therefrom, wherein the solvent catalyst material is disposed within interstitial regions between the bonded together diamond crystals; replacing substantially all of the removed solvent catalyst material with a replacement material not initially used to form the diamond body, wherein the replacement material fills the interstitial regions; and treating the body comprising the replacement material to remove substantially all of the replacement material from a first region of the body extending a depth from a body surface, wherein the depth is greater than about 0.05 mm from the surface, and allowing the remaining amount of the replacement material to reside in a second region of the body that is remote from the surface. 2. The method as recited in claim 1 wherein during the step of replacing, the replacement material that is used has a melting temperature of less than about 1,200° C. 3. The method as recited in claim 1 wherein during the step of replacing, the replacement material that is used is selected from Group IB of the Periodic table. 4. The method as recited in claim 1 further comprising the step of attaching a substrate to the body. 5. The method as recited in claim 4 wherein the step of attaching takes place during the step of replacing, and wherein the substrate includes a binder material that is formed from the replacement material, and wherein the substrate is a cermet material. 6. The method as recited in claim 4 wherein the step of attaching takes place after the step of replacing. 7. The method as recited in claim 6 wherein the step of attaching takes place before the step of treating. 8. A method for making a polycrystalline diamond construction comprising the steps of: treating a polycrystalline diamond body comprising a plurality of bonded together diamond crystals and a solvent catalyst disposed within interstitial regions to remove substantially all of the solvent catalyst material therefrom; attaching the polycrystalline diamond body to a substrate, wherein during the step of attaching, a constituent of the substrate infiltrates into the polycrystalline diamond body to fill the interstitial regions, wherein the constituent of the substrate is a non-catalyst material not initially used to form the diamond body; and leaching the polycrystalline diamond body to remove a portion of the infiltrated constituent from a region depth extending from a working surface of the body, wherein the infiltrated constituent remains in another region of the body. 9. The method as recited in claim 8 wherein during the step of treating, the polycrystalline diamond body is rendered substantially free of the solvent catalyst material. 10. The method as recited in claim 8 wherein during the step of leaching, the partial depth of the polycrystalline diamond body is rendered substantially free of the constituent. 11. The method as recited in claim 8 wherein the step of attaching is conducted at high pressure/high temperature conditions. 12. The method as recited in claim 8 wherein during the leaching step rendering interstitial regions within the partial depth of the diamond body substantially empty. 13. A method for making a polycrystalline diamond construction comprising the steps of: treating a polycrystalline diamond body comprising a plurality of bonded together diamond crystals and a solvent catalyst material to remove substantially all of the solvent catalyst material therefrom to form a thermally stable diamond body, wherein the solvent catalyst material is disposed within interstitial regions between the bonded together diamond crystals; infiltrating a replacement material through the entire polycrystalline diamond body to fill the interstitial regions, wherein the replacement material is inert up to about 2000° C. and is a material not initially used to form the diamond body; and attaching the thermally stable diamond body to a substrate, wherein after attachment to the substrate, the thermally stable diamond body comprises a first region adjacent the substrate having the interstitial regions filled with the replacement material, and a second region remote from the substrate being substantially free of the replacement material. 14. The method of claim 13 , wherein the replacement material infiltrates the entire polycrystalline diamond body, and wherein the method further comprises: removing the replacement material from a portion of the interstitial regions to form the second region remote from the substrate.