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Effects of pre-heating induced interfacial diffusion on microstructure and related mechanical properties of direct laser metal deposited Inconel 625 superalloy on a Cu-Cr-Zr substrate

Ruohan Zhao, Lulu Li, Zhenhua Nie, Zongqing Ma, Qianying Guo

2024Materials Science and Engineering A14 citationsDOIOpen Access PDF

Abstract

Copper-based alloys possess outstanding thermal and electrical conductivity , making them popular in the electronic and aerospace industries. However, its low hardness makes it vulnerable to failure in harsh service environments, which require surface coating . By using the direct laser metal deposition method to coat harder alloys on the surface of Cu alloys, the challenge of this copper alloy's high laser reflectivity was noted. To solve this problem, both substrate preheating and high-power LMD methods were employed, which established an excellent metallurgical bonding between the coating and substrate with a 2 μm diffusion layer and enhanced the Cu-Cr-Zr substrate's hardness and wear resistance. Due to the presence of copper elements in the fusion zone, the constituent supercooling zone is increased, resulting in a finer columnar crystal structure in the fusion zone. Such elements exchange process during LMD produces will also improve the mechanical properties of the Cu-Cr-Zr substrate by solid solution strengthening.

Topics & Concepts

SuperalloyMaterials scienceMicrostructureInconelInconel 625MetallurgyDiffusionSubstrate (aquarium)MetalLaserAlloyOpticsOceanographyGeologyThermodynamicsPhysicsAdditive Manufacturing Materials and ProcessesHigh Entropy Alloys StudiesWelding Techniques and Residual Stresses
Effects of pre-heating induced interfacial diffusion on microstructure and related mechanical properties of direct laser metal deposited Inconel 625 superalloy on a Cu-Cr-Zr substrate | Litcius