1 July 2015 Laser cladding of nickel-based alloy coatings on copper substrates
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Proceedings Volume 9657, Industrial Laser Applications Symposium (ILAS 2015); 965703 (2015) https://doi.org/10.1117/12.2175966
Event: Industrial Laser Applications Symposium 2015, 2015, Kenilworth, United Kingdom
Abstract
The wear resistance of high-value copper components used in the metal casting, automotive, aerospace and electrical equipment industries can be improved by applying nickel (Ni)-based coatings through laser cladding. A high-power diode laser array providing continuous power levels up to 10 kilowatts with beam-shaping optics providing a rectangular focal region of various dimensions was used to deposit Ni-based alloy coatings with controlled thickness ranging from 0.3 mm to 1.6 mm in a single pass on copper (Cu) substrates. Slotted powder feeding plates with various discrete widths delivered uniform streams of powdered metal particles entrained in a carrier gas, matching the selected focal spot dimensions. To enhance laser beam coupling with the substrate and to avoid defects such as cracks, delamination and porosity, Cu substrates were preheated to a temperature of 300°C. The effect of heat input on microstructure of the cladding and extent of the heat-affected zone (HAZ) was evaluated using optical microscopy and scanning electron microscopy. Excessive heat input with longer interaction time increased dilution, porosity and expanded HAZ that significantly reduced the hardness of both the clad and the Cu substrates. Average microhardness of the Ni-C-B-Si-W alloy coating was 572 HV, which was almost 7 times greater than the hardness of the Cu substrate (84 HV).
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Prabu Balu, Edward Rea, Justin Deng, "Laser cladding of nickel-based alloy coatings on copper substrates", Proc. SPIE 9657, Industrial Laser Applications Symposium (ILAS 2015), 965703 (1 July 2015); doi: 10.1117/12.2175966; https://doi.org/10.1117/12.2175966
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