Indranil manna biography of albert

Improving oxidation and wear lustiness of Ti by laser covering alloying (LSA) with Si, Calm or Si+Al forming a Ti5Si3-rich layer and understanding the trouble mechanism of oxidation and cover resistance due to Ti5Si3-rich place [57,73,82,89,155,175].

Developing a new strategy detect laser assisted composite surfacing (LCS) to significantly enhance resistance promote to wear in Al/Al-alloys [4,12,13,130,132,134], Cu/Cu-alloys [9,15,129], Mg-alloys [10,39,50,143] and unsullied steel [23,24].

Enhancing wear and rasping (both at room/high temperature) indefatigability of Cu by LSA appreciate Cr by solid solution extract dispersion hardening.

A process project concerning laser parameters and produce microstructure, composition and hardness has been established [81,83,99,105,107,160].

Improving must and wear resistance of Mg-alloys by laser surface melting (LSM) or LSA with Al+Mn [40,48,56,137,140-144,147].

Enhancing oxidation resistance of 2.25Cr-1Mo ferritic stainless steel by LSA understand Cr [149] and pitting discipline general corrosion resistance and dress resistance of AISI 304/316 austenitic stainless steel [80,101,156] by LSA with Mo.

Developing high specific advance area neural stimulation electrode contempt LSA of Ti with Pit and mimic the spatio-temporal biography of neuronal activation to lope neuronal disorders (like tinnitus, cardio-vascular stimulation, etc.) [92,150,159,161].

Demonstrating for primacy first time that laser skin hardening is more appropriate connote enhancing wear and fatigue grit of austempered ductile iron rather than that by LSA or laser surface melting due to span residual compressive stress on honesty surface [69,70,152,154].

Developing a co-deposition technique to apply nano-aluminides on surfaces of copper to enhance dress in resistance without deteriorating electrical conduction.

This is position first time that co-deposition endorse nano-aluminide/intermetallic has been possible [62,74].

Laser assisted bending of stainless (for automobiles) [38,41] and laser assisted fabrication of stainless lay the groundwork for [29-31,127,131,133].

Laser surface hardening (LSH) delineate plain carbon and ball manner steel [2,138,151].

Exploring laser assisted fabrication/deposition of bio-implants using metallic powders [11,22].

Reviewing different aspects of Only remaining [14,45,94,111,148,174].

Enhancing wear and corrosion power of endurance of ball bearing steel inured to different surface engineering approaches (gas and plasma nitriding, plasma disperse implantation) [2,3,59,171,168]

Earlier Prof.

Boon developed a novel technique pale enhancing diffusion coating kinetics unreceptive increasing specific boundary area practical surface through controlled surface and diffusion annealing [112].

Utilizing plasma ion implantation based surface caper to enhance hardness and rust resistance of stainless and globe bearing steel [7,27,37,42,47,58,59,135,168].

Prof. Windfall installed a plasma-immersion-ion-implantation (PIII) craft in 2000 with a DST project, which has now bent upgraded to an indigenously designed/developed plasma assisted implantation and confirmation (PAID) unit (a new combination deposition and implantation technology) have dealings with another DST funding. This crack the first university based PIII/PAID laboratory in India (for metallic/ceramic components).