TY - JOUR A1 - Brand, Marco A1 - Goßling, Mareen A1 - Utu, Ion-Dragos A1 - Marginean, Gabriela T1 - Comparative Performance of Ni- and Fe-Based Mixed Alloy Brazed Coatings via Laser Remelting T2 - Lubricants (Special Issue Analysis, Evaluation and Diagnosis of Tribological Phenomena in Machining Processes) N2 - Traditionally, repairing coated substrates requires completely removing damaged, wear-resistant layers before recoating. This process leads to high costs, extended downtime, and material waste. Flexible brazing tapes, which are composed of alloy powder and an organic binder, offer an alternative to full coating removal for targeted repairs. Despite this, the process of vacuum brazing these tapes may lead to the formation of defects, including pores caused by trapped gases or residual binder, which compromise coating durability and corrosion resistance. This study focuses on the utilization of laser remelting as a method for post-processing nickel- and iron-based mixed alloy brazing tapes, with the aim of improving the integrity of the coating. Surface quality was assessed via microscopy and microhardness testing by systematically varying laser power, scanning speed, and hatch distance. Among the parameters studied, the most suitable laser parameter combination was found to be 350 W laser power, 250 mm/s scanning speed, and a hatch distance of 0.02 mm. These parameters yielded crack- and pore-free coatings with a remelting depth of 160.3 ± 17.2 µm and a microhardness of 701 ± 23 HV1, which is an 85% increase over as-brazed samples. Wear testing revealed a reduced coefficient of friction, and electrochemical corrosion tests showed lower corrosion current density and enhanced repassivation behavior in remelted coatings. These improvements demonstrate that laser remelting significantly enhances the microstructure, hardness, wear resistance, and corrosion performance of brazed coatings, providing an effective method for localized repair while minimizing material consumption and processing duration. KW - brazing tapes KW - sliding wear resistance KW - reuse KW - repair KW - laser surface refining KW - remelting KW - corrosion protection Y1 - 2026 UR - https://opus4.kobv.de/opus4-w-hs/frontdoor/index/index/docId/4934 UR - https://nbn-resolving.org/urn:nbn:de:hbz:1010-opus4-49343 VL - 2026 IS - 14 (4) PB - MDPI ER -