Fig. 12 Spray cladding for abrasion resistance of piston-ring groove. HVOF, high-velocity oxyfuel More

Fig. 8 Comparison of the abrasion resistance of untreated 30MnB5 AM FCE with standard structural grades (ASTM G 65 test procedure). Source: Ref 17 More

Fig. 3 Comparison of relative abrasion resistance at typical working hardness for high-speed tool steels More

Fig. 10 Abrasion resistance of PCD, PCBN, and other cutting tool materials. Machining parameters: depth of cut = 1.0 mm (0.040 in.); feed rate = 0.32 mm/rev (0.013 in./rev); approach angle = 45°; top rake = 0°; clearance = 6°; tool nose radius = 0.8 mm (0.030 in.); dry, no coolant. Workpiece More

Fig. 9 Abrasion resistance versus hardness for various material types in high-stress pin abrasion tests (silicon carbide abrasive). Source: Ref 6 More

Fig. 12 Effect of microstructure and hardness on the abrasion resistance of steels: high-stress abrasion, alumina abrasive. Source: Ref 7 More

Fig. 1 Relative abrasion resistance of tool steels. Source: Ref 2 More

Fig. 3 Abrasion resistance of hardened and tempered carbon steels as function of volume fraction of cementite. Temperatures shown indicate tempering temperature; hardness decreases as tempering temperature increases. Source: Ref 4 More

Fig. 4 Abrasion resistance of tool steels versus a structural parameter (defined in text). Source: Ref 5 More

Fig. 7 Comparison of relative abrasion resistance at typical working hardness for high-speed tool steels More

Fig. 17 Results of relative abrasion resistance of a range of hardfacing overlays (ASTM G65 dry sand abrasion testing) More

Fig. 4 Effect of coating technique on the relative abrasion resistance of TiN on hardened steel applied by various PVD processes More

Fig. 4 Relative abrasion resistance of tool steels More

Fig. 8 Abrasion resistance of tool steels versus a structure parameter, A , that equals the primary carbide size, multiplied by the volume fracture of carbides, multiplied by carbide hardness. Source: Ref 5 More

Fig. 12 Effect of microstructure and hardness on the abrasion resistance of steels: high-stress abrasion, alumina abrasive. Source: Ref 7 More

Fig. 9 Abrasion resistance versus hardness for various material types in high-stress pin abrasion tests (silicon carbide abrasive). Source: Ref 6 More

Fig. 15 Spray cladding for abrasion resistance of piston-ring groove. HVOF, high-velocity oxyfuel. Source: Ref 64 More

Fig. 5 Comparison of the relative abrasion resistance (RAR) of ADI with those of different abrasion-resistant steels. High RAR values indicate higher abrasion resistance. More

Fig. 82 Abrasion resistance after 25,000 punches for (a) prior air-cooling heat treating process and (b) aqueous polymer quenchant immersion time quenching system process More

Fig. 4 Effect of structure and hardness on abrasion resistance. Source: adapted from Ref 21 More