Mold and die metallic material, air-permeable member for mold and die use, and method for manufacturing the same

The invention claimed is: 1. An air-permeable member for mold and die use obtained by EDM, etching, or machining of the mold and die metallic material, the mold and die metallic material being made by forming a mixed material containing stainless steel fibers with an equivalent diameter of 30-300 μm and a length of 0.4-5.0 mm, and stainless steel powder, heat sintering a green body of the mixed material, and heating the sintered body thus obtained in a nitrogen atmosphere and nitrided, the air-permeable member comprising: open pores whose average open pore diameter is 3-50 μm; a plurality of drilled conducting holes each formed straight through an interior of the air-permeable member and each having inlet and outlet openings opened, respectively, in opposite sides of the air-permeable member, wherein the conducting holes have a diameter of 5-20 mm; a hardening agent added epoxy resin having a viscosity of 200 mPa·s-20000 mPa·s and applied over inner surfaces of the conducting holes; and a connecting pipe configured to connect the outlet of a conducting hole to the inlet of an adjacent conducting hole so that cooling water can flow through the conducting holes and the connecting pipes to maintain the air-permeable member at a fixed temperature, wherein the air-permeable member cleaned out by air blowing has an air permeability of 50 cm 3 /cm 2 ·sec or greater. 2. The air-permeable member for mold and die use according to claim 1 , wherein the stainless steel fibers and stainless steel powder are ferritic stainless. 3. The air-permeable member for mold and die use according to claim 2 , wherein the nitrogen content resulting from nitriding is 0.3-1.2 wt. % per 100 wt. % stainless component. 4. The air-permeable member for mold and die use according to claim 3 , wherein the mixed material further contains copper powder or copper-tin alloy powder. 5. The air-permeable member for mold and die use according to claim 4 , wherein the mixed material contains 20-80 wt. % stainless steel fiber and 20-80 wt. % stainless steel powder as stainless component, as well as 1-10 wt. % copper powder or copper-tin alloy powder per 100 wt. % stainless component. 6. The air-permeable member for mold and die use according to claim 5 , wherein porosity of the open pore is 15-35%. 7. The air-permeable member for mold and die use according to claim 6 , wherein nitriding is carried out by holding the material in nitrogen gas or decomposed ammonia gas at 900-1050° C. 8. The air-permeable member for mold and die use according to claim 1 , comprising a machined surface whose roughness is 3 μm-20 μm. 9. The air-permeable member for mold and die use according to claim 8 , wherein the machined surface has a roughness of 3.2 μm-13.5 μm. 10. The air-permeable member for mold and die use according to claim 9 , wherein the surface is machined by a ball end mill, and the ball end mill rotates at 3000-30000 rpm, at a feed speed of 1000-2000 mm/min. 11. A method for making an air-permeable member for mold and die use comprising the steps of: forming a mixed material containing stainless steel fibers with an equivalent diameter of 30-300 μm and a length of 0.4-5.0 mm and stainless steel powder to make a green body; heat sintering the green body of the mixed material to make a sintered body; heating the sintered body in a nitrogen atmosphere to make a mold and die metallic material having open pores whose average open pore diameter is 3-50 μm; processing the mold and die metallic material to make an air-permeable member for mold and die use so as to have a surface roughness of 3 μm-20 μm; air-blowing the air-permeable member to clean the open pores in the air-permeable member to provide the air-permeable member with an air permeability of 50 cm 3 /cm 2 ·sec or greater; drilling the air-permeable member to form conducting holes inside the air-permeable member, wherein the conducting holes have a diameter of 5-20 mm; and applying a hardening agent added epoxy resin having a viscosity of 200-20000 mPa·s over inner surfaces of the conducting holes to seal the open bores open in the conducting holes. 12. The method according to claim 11 , wherein processing the mold and die metallic material comprise one of performing EDM on the mold and die metallic material, etching the mold and die metallic material and machining the mold and die metallic material. 13. The method according to claim 12 , wherein machining the mold and die metallic material comprises using a ball end mill that rotates at 3000-30000 rpm and operates at a feed speed of 1000-2000 mm/min. 14. The method according to claim 11 , wherein a ball end mill machines the air-permeable member to provide the air-permeable member with an air permeability of 100-2000 cm3/cm2·sec. 15. The method according to claim 11 , wherein drilling the air-permeable member to form conducting holes comprises drilling the air-permeable member to form conducting holes so as to each have inlet and outlet openings opened, respectively, in opposite sides of the air-permeable member, the method further comprising connecting the outlet of a conducting hole to the inlet of an adjacent conducting hole.