Investigation of the mechanical properties and corrosion behaviors of Ni-BN-TiC layers constructed via laser cladding technique

In this article, Ni and Ni-BN-TiC layers were constructed using laser cladding technique (LCT). The micro-structure, phase structure, microhardness, elastic modulus, thermal stability, and corrosion behaviors of Ni-BN-TiC layers were investigated using scanning electron microscope (SEM), X-ray diffractometer (XRD), nano-indentation, differential scanning calorimetry (DSC), and electrochemical workstation. The results indicated that Ni-BN-TiC layers possessed a fine and compact microstructure. The exothermic peak of the Ni-BN-TiC layer appeared at 461 degrees C, indicating the highest thermal stability. The mechanical properties of Ni-BN-TiC layer improved with the addition of BN and TiC particles, having an average microhardness of 19.6 GPa, and average elastic modulus of 194.2 GPa. In addition, the corrosion current densities of 45 steel, Ni and Ni-BN-TiC layers were 4.808 mu A/cm(2), 3.917 mu A/cm(2), and 2.014 mu A/cm(2), respectively. The corrosion potentials and corrosion current densities results showed the outstanding corrosion resistance of Ni-BN-TiC layers.

Automated summary

In this study, Ni and Ni-BN-TiC layers were fabricated using laser cladding technique (LCT). The microstructure, phase structure, mechanical properties, thermal stability, and corrosion behaviors of Ni-BN-TiC layers were investigated. The results showed that Ni-BN-TiC layers had a fine and compact microstructure with improved mechanical properties and outstanding corrosion resistance.