Studies on Electroless Coatings at IIT Roorkee - A Brief Review

Preeti Makkar; Ramesh Chandra Agarwala; Vijaya Agarwala

doi:10.4028/www.scientific.net/MSF.736.275

Paper Titles

A Parameter for Selection of Nano-Dispersoids in Nanofluids for Thermal Applications
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Synthesis and Magnetic Properties of Nanocrystalline Co-Ni Alloys: A Review
p.229

Organic Electronics: Successes in Organic Light Emitting Diodes and Display Technology
p.241

Inkjet Printed Organic Thin Film Transistors: Achievements and Challenges
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Studies on Electroless Coatings at IIT Roorkee - A Brief Review
p.275

Microstructural Characterization and Cyclic Oxidation Behavior of HVOF-Sprayed Cr₃C₂-NiCr Coating on Boiler Steel at Elevated Temperature
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Texture Effects in the Delithiation of Lithium Cobalt Oxide
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Modification in Texture of Magnesium by the Addition of Rare Earth Elements and its Influence on Mechanical Properties
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Looking Back
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HomeMaterials Science ForumMaterials Science Forum Vol. 736Studies on Electroless Coatings at IIT Roorkee - A...

Studies on Electroless Coatings at IIT Roorkee - A Brief Review

Abstract:

Since the introduction of Electroless (EL) coating in 1946 by Brenner and Riddle, the process has been the subject of steady growth. It is one of the most elegant methods available for the production of alloy coatings on surface. The technique involves the autocatalytic reduction, at the substrate/solution interface, of cations by EL bath released from suitable chemical reducing agents. EL coating technique is simple one, as can be manifested just by controlling pH and temperature of the coating bath. Such coatings are reported to provide excellent physical and mechanical properties. The electroless coatings are being studied at Indian Institute of Technology Roorkee since 1985. The structural and morphological behavior of Ni-P coatings for different phosphorous contents has been extensively studied. Sub-micron size coating islands and their transformations have been deduced. The metallography studies using hot stage within TEM to follow the phase transformations occurring at various temperatures have been studied for Ni-B EL coatings. The realization of mechanical bonding along with chemical bonding between EL coating and the substrate has been explained by coated copper on ceramic powder. As a forward step towards composite coatings, Ni-P-C, Ni-P-Al₂O₃, Ni-P-ZrO₂ has been developed by EL co-deposition technique. Ag-graphite coatings produced by EL technique exhibits nearly five times higher wear resistance and nearly two times better corrosion resistance apart from a good electrical conductor. The tribological behavior of electroless Ni-P-X and Ni-P coatings on steel and aluminium substrates in different conditions i.e., as coated, heat treated at various temperatures at different extents of time with different normal loads, have been studied in terms of dry sliding friction and wear against counter face of case hardened steel. In Ni-P-X nanocoating (X= ZrO₂-Al₂O₃-Al₃Zr), X has been produced in-situ and are of nanosize particles. Such coating could be done on carbon fibre of 7µ diameter uniformly. Ni-P-ferrite nanocoatings with thickness less than nearly 1mm thick, is exhibiting good absorption of microwave in the range of 12-18 GHz which can be exploited for radar applications. Micro-thickness coatings are paying ways to nanocoatings. Nanocoatings are the coatings in which either the thickness of the coating is in nanolevel or second phase that dispersed in the coat matrix is of nanosize. To further explore the field of EL nanocomposite coatings, now days, a work on EL Ni-P-ZnO, TiO₂, Al₂O₃, ZrO₂ and Ni-B-ZrO₂for its mechanical properties has been carried out.