Superhard constructions and methods of making same

The invention claimed is: 1. A super hard polycrystalline construction comprising: a first region comprising a body of thermally stable polycrystalline super hard material having an exposed surface forming a working surface, and a peripheral side edge, said polycrystalline super hard material comprising a plurality of intergrown grains of super hard material; a second region forming a substrate to the first region; and a third region interposed between the first and second regions; wherein: the third region extends across a surface of the second region along an interface surface, the interface surface having an uneven topology with peaks and troughs, the third region comprising a composite material having: a first phase comprising a plurality of non-intergrown diamond grains, and a matrix material, the matrix material comprising between around 5 vol % to around 80 vol % of the third region; and a second phase; the non-intergrown diamond grains and the second phase of the composite material comprise between 20 vol % to 95 vol % of the third region; and the third region has a wear resistance at least three times less than a sintered polycrystalline diamond material having the same average grain size of diamond grains as the diamond grains in the third region. 2. The polycrystalline super hard construction of claim 1 , wherein the second phase comprises CBN, and/or WC, and/or wBN. 3. The polycrystalline super hard construction of claim 1 , wherein the second phase is formed of a material having a hardness less than the hardness of the first phase of the composite material. 4. The polycrystalline super hard construction of claim 1 , wherein the matrix material of the third region comprises any one or more alloys or compounds of any one or more transition metals including titanium, zirconium, vanadium, hafnium, tantalum, niobium, chromium, molybdenum, tungsten, copper, cobalt, nickel, iron, manganese, and/or rhenium. 5. The polycrystalline super hard construction of claim 4 , wherein the one or more alloys or compounds of any one or more of the transition metals comprises oxides, nitrides, carbides, carbonitrides, and/or oxycarbides of said transition metals. 6. The polycrystalline super hard construction of claim 1 , wherein the matrix material comprises aluminium, and/or nickel, and/or one or more alloys or compounds thereof. 7. The polycrystalline super hard construction of claim 1 , wherein the matrix material of the third region comprises any one or more of titanium carbonitride, titanium diboride, aluminium nitride, aluminium oxide, cobalt, and tungsten carbide. 8. The polycrystalline super hard construction of claim 1 , wherein the non-intergrown diamond grains of the composite material comprise between 30 vol % to 90 vol % of the third region. 9. The polycrystalline super hard construction of claim 1 , wherein the first region, the second region and the third region each have an associated hardness, wherein the hardness of the third region is greater than the hardness of the second region and less than the hardness of the first region. 10. The polycrystalline super hard construction of claim 1 , wherein the grains of super hard material of the first region comprise diamond grains, the first region forming a body of polycrystalline diamond material. 11. The polycrystalline super hard construction of claim 1 , wherein the composite material of the third region is more acid resistant than polycrystalline diamond material having a binder-catalyst phase comprising cobalt, and/or more acid resistant than cemented carbide material. 12. The polycrystalline super hard construction of claim 11 , wherein the composite material of the third region is more resistant to boiling HCl acid than polycrystalline diamond material having a binder-catalyst phase comprising cobalt, and/or more resistant to boiling HCl acid than cemented carbide material. 13. The polycrystalline super hard construction of claim 1 , wherein the second region comprises cemented carbide material. 14. The super hard polycrystalline construction of claim 1 , wherein the first region is substantially free of a catalyst material for diamond. 15. The super hard polycrystalline construction of claim 1 , wherein the thermally stable first region comprises at most 3 weight percent of inaccessible catalyst material for diamond. 16. The super hard polycrystalline construction of claim 1 , wherein the construction has a longitudinal axis, the thickness of the third region along a plane parallel to the longitudinal axis being between 0.1 mm to 4 mm. 17. The super hard polycrystalline construction of claim 1 , further comprising a fourth region interposed between the second region and the third region, the second region comprising a binder material, a major proportion of the fourth region comprising one or more components of the binder material of the second region, the fourth region further comprising one or more reaction products between the binder material of the second region and one or more components of the third region. 18. The super hard polycrystalline construction of claim 17 , wherein the fourth region comprises one or more components or alloys of Co, nickel, chromium, vanadium, molybdenum, titanium, tantalum, iron, manganese, and hafnium. 19. The super hard polycrystalline construction of claim 17 , wherein the fourth region comprises diamond grains and/or cBN grains.