Effects of deep cryogenic treatment on the microstructure and properties of WCFeNi cemented carbides

• The martensite transformation and precipitation of W particles have taken place during deep cryogenic treatment.
• The maximum hardness and transverse rupture strength increase by almost 20% and 7.7%, respectively.
• Compared with the as-sintered specimens, the wear rate and friction coefficient decrease by 56% and 17.2%, respectively.
• The fracture toughness and corrosion resistance of the cryogenically treated WC-Fe-Ni cemented carbides slightly decrease.

The effects of deep cryogenic treatment on microstructure and properties of WCFeNi cemented carbides were investigated in this paper. The WCFeNi cemented carbides were deep cryogenically treated at about − 196 °C for 2, 12 and 24 h. In order to study the phase composition and quantitative analysis of the deep cryogenically treated specimens, a selective electrolytic corrosion was used. The internal friction, mechanical properties, wear properties and corrosion behavior of the deep cryogenically treated WCFeNi cemented carbides were measured. The results show that with an increase in deep cryogenic treatment time, martensitic phase transformation of binder phase from γ → α has taken place, the α-(Fe,Ni) phase content in the binder phase gradually increases from 12.7% to 86.8% (wt.%) and W particles precipitate from the binder phase. Compared with the as-sintered specimens, the maximum hardness and transverse rupture strength of the specimens treated by cryogenic environment increase by almost 20% and 7.7%, respectively. The fracture toughness decreases from 25.7 MPam½ for as-sintered specimens to 19.6 MPam½ for the alloy after deep cryogenic treatment. The wear rate and friction coefficient decrease by almost 56% and 17.2%, while the corrosion resistance slightly decreases compared with the alloys without deep cryogenic treatment. The change of the properties can be primarily attributed to the fact that the martensite phase transformation from γ-(Fe,Ni) to α-(Fe,Ni) and precipitation of W particles in the binder phase improve the hardness and strengthen the binder phase during the deep cryogenic treatment.

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