M. B. Deshmukh scite author profile

High Mo surface alloys on stainless steels 304L and 316L were produced by laser surface alloying. For this, a layer of 60 pm thickness was overlaid on the substrates by plasma spraying of Mo powders. These were further treated by a Nd:YAG pulsed laser for alloying. Depths of alloying in the range of 440-1110 mm were achieved. Concentration in the range of 5.2-15.0 wt% Mo within the laser alloyed zone was, in general, uniform throughout. During alloying, in-situ heating at 700°C was required to prevent cracking in samples with 5.2-6.0 wt% Mo. Higher Mo content enhanced the cracking tendency and made it difficult to prevent cracking completely even at this temperature. Fully austenitic microstructure of the substrate metals transformed to austennitic-ferritic duplex for 5.2-9.0 wt% Mo and to fully ferritic for 15.0 wt% Mo. Primary solidification mode also changed to FA, FA + F and finally to F depending upon Mo content in the alloyed zone. Ferrite content in the alloyed zone was in the range of 31-79% depending upon amount of Mo. Microhardness was increased from 173 VHN for 316L to 198-790 VHN depending upon wt% Mo in the alloyed zone. Preliminary studies indicated that pitting potential in 3.5% NaCl aqueous solution improved substantially from 132 mV for 304L and 240 mV for 316L to 480 mV and 500 mV respectively for 5.5-6.0 wt% Mo in the alloyed zone.

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M. B. Deshmukh

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