Effect of Laser Scanning Speed on the Wear Behavior of Nano-SiC-Modified Fe/WC Composite Coatings by Laser Remelting

Abstract: A supersonic plasma sprayed nano-SiC-modified WC/Fe metal-cermet composite coating was remelted with a fibre-pulsed laser at four different laser scanning speeds (100, 150, 200 and 250 mm·min −1 ) while the other parameters were kept constant. The microstructures, microhardness, and tribological properties of the coatings were analysed by means of SEM (scanning electron microscopy), XRD (X-ray diffractometer), and a friction tester, respectively. The results show that, when the laser scanning speed is 100 mm·m… Show more

“…The use of conventional laser marking systems for the textures development, usually rejected for this purpose due to their requirement of use in pulse mode, imply a high understanding of the influence of laser processing parameters on the resulting texture features. For linear textures, energy density of pulse (E d ) and scanning speed of the beam (V s ) are shown as two of the most relevant parameters involved in the size and geometrical properties of the laser grooves [35][36][37][38].…”

Assessment the Sliding Wear Behavior of Laser Microtexturing Ti6Al4V under Wet Conditions

“…The use of conventional laser marking systems for the textures development, usually rejected for this purpose due to their requirement of use in pulse mode, imply a high understanding of the influence of laser processing parameters on the resulting texture features. For linear textures, energy density of pulse (E d ) and scanning speed of the beam (V s ) are shown as two of the most relevant parameters involved in the size and geometrical properties of the laser grooves [35][36][37][38].…”

Assessment the Sliding Wear Behavior of Laser Microtexturing Ti6Al4V under Wet Conditions

Effect of W-to-C atomic ratio on microstructure and performance of in-situ WC/Fe composite prepared by spark plasma sintering