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The rods that were shaped from nanocrystalline WC-10.21Co-0.42VC/Cr_3C_2 (wt%) composite powders by using powder extrusion molding (PEM) were investigated. The nanocrystalline WC-10.21Co-0.42VC/Cr_3C_2 (wt%) composite powders were prepared by the spray thermal decomposition-continuous reduction and carburization technology. In order to improve the properties of rods shaped by using powder extrusion molding, the cold isostatic pressing (CIP) technology was used before or after debinding. Specimens were sintered by vacuum sintering and hot isostatic pressing (HIP). The density, Rockwell A hardness, magnetic coercivity, and magnetic saturation induction of sintered specimen were measured. The microstructure of the green bodies and the sintered specimens was studied by scanning electron microscopy (SEM). Results show that the rod formed by using powder extrusion molding after debinding and followed by cold isostatic pressing can be sintered to 99.5% density of composite cemented carbide rods with an average grain size of about 200-300 nm, magnetic coercivity of 30.4 KA/m, Rockwell A hardness of 92.6 and magnetic saturation induction of 85%. Superfine WC-10Co cemented carbide rods with excellent properties were obtained.
The rods that were shaped from nanocrystalline WC-10.21Co-0.42VC / Cr_3C_2 (wt%) composite powders by using powder extrusion molding (PEM) were investigated. The nanocrystalline WC-10.21Co-0.42VC / Cr_3C_2 were prepared by the spray thermal decomposition-continuous reduction and carburization technology. In order to improve the properties of rods shaped by using powder extrusion molding, the cold isostatic pressing (CIP) technology was used before or after debinding. The density, Rockwell A hardness, magnetic coercivity, and magnetic saturation induction of sintered specimens were. The microstructure of the green bodies and the sintered specimens was studied by scanning electron microscopy (SEM). Results show that the rod formed by using powder extrusion molding after debinding and followed by cold isostatic pressing can be sintered to 99.5% density of composite cemented carbide ro with an average grain size of about 200-300 nm, a magnetic coercivity of 30.4 KA / m, a Rockwell A hardness of 92.6 and a magnetic saturation induction of 85%. Superfine WC-10Coated rods with excellent properties were obtained.