Tip for a pick tool, method of making same and pick tool comprising same

The invention claimed is: 1. A tip for a pick tool, comprising a polycrystalline diamond (PCD) structure joined to a substrate body, the PCD structure having a strike surface including an apex opposite a boundary with the substrate body, the thickness of the PCD structure disposed between the apex and the boundary with the substrate body being at least 3 mm; in which the PCD structure consists of diamond and filler material, the filler material comprising catalyst material for diamond, the content of the filler material being more than 5 weight percent of the PCD structure and the content of the catalyst material being substantially uniform throughout the PCD structure; including in an outer volume of the PCD structure proximate at least an area of the strike surface including the apex, the outer volume containing filler material between diamond grains, the content of the filler material being more than 5 weight percent of the PCD structure in the outer volume. 2. A tip as claimed in claim 1 , in which the boundary includes a depression in the substrate body opposite the apex. 3. A tip as claimed in claim 1 , in which the boundary includes a convex region projecting from the substrate body opposite the apex. 4. A tip as claimed in claim 1 , comprising an intermediate volume between the PCD structure and the substrate, the intermediate volume being greater than the volume of the PCD structure and comprising an intermediate material having a mean Young's modulus at least 60% and at most 90% that of the PCD structure. 5. A tip as claimed in claim 1 , in which the PCD structure comprises a plurality of strata arranged so that adjacent strata comprise different PCD grades, adjacent strata being directly bonded to each other by inter-growth of diamond grains. 6. A tip as claimed in claim 1 , in which the strike surface defines a conical shape including a rounded apex having a longitudinal radius of curvature of at least 1 mm and at most 4 mm, the strike surface arranged opposite the boundary with the substrate body. 7. A tip as claimed in claim 1 , in which at least part of the strike surface or a tangent to at least part of the strike surface is disposed at an angle to a peripheral side of the tip, the angle being at least 35 degrees and at most 55 degrees, the peripheral side of the tip including a peripheral side of the substrate. 8. A tip as claimed in claim 1 , in which the volume of the PCD structure is at least 70 percent and at most 150 percent of the volume of the substrate body. 9. A tip as claimed in claim 1 , in which the volume of the PCD structure is greater than 50 percent and less than 70 percent of the volume of the substrate body. 10. A pick tool comprising a tip as claimed in claim 1 , the tip being joined to a support body comprising an insertion shaft; the insertion shaft shrink fit within a bore of a steel base, the steel base comprising a coupling shank for coupling the pick to a carrier vehicle. 11. A pick tool as claimed in claim 10 , in which the substrate body comprises cemented carbide having magnetic saturation in the range from 7 G.cm 3 /g to 11 G.cm 3 /g and coercivity in the range from 9 kA/m to 14 kA/m. 12. A tip as claimed in claim 1 , in which the substrate body comprises cemented carbide material containing 5 to 8 weight percent cobalt. 13. A method of making a tip as claimed in claim 1 , comprising a PCD structure having a strike surface remote from an inner boundary with a substrate body; the method including providing a cup having an internal surface configured to define a volume corresponding to a shape having an apex, providing an aggregation comprising a plurality of diamond grains combined with a source of catalyst material for diamond the source of catalyst material being provided at least in a region of the aggregation proximate an outer boundary remote from the inner boundary, such that a region of the PCD structure adjacent the strike surface will comprise more than 5 weight percent catalyst material; disposing the aggregation within the volume and imposing the shape on a proximate end of the aggregation, disposing a substrate body against a distal end of the aggregation so that the aggregation is disposed between the substrate body and the cup to form a pre-sinter assembly; and subjecting the pre-sinter assembly to a pressure and temperature suitable for sintering the diamond in the presence of the catalyst material; in which the thickness of the aggregation between the apex and the inner boundary is at least 3 mm, and sufficiently large such that the thickness of the sintered PCD structure between the apex and the boundary with the substrate will be at least 3 mm. 14. A method as claimed in claim 13 , in which the source of catalyst material is provided within the aggregation of the diamond grains in the form of admixed powder. 15. A method as claimed in claim 13 , in which the source of catalyst material is provided within the aggregation of the diamond grains in the form of deposits on the diamond grains. 16. A method as claimed in claim 13 in which the aggregation of the diamond grains includes precursor material for the catalyst material. 17. A pick apparatus comprising a pick tool as claimed in claim 10 coupled to a vehicle for driving the pick tool against a body to be degraded.