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Bulk single-crystal-like IN738 alloy fabricated using laser powder bed fusion by controlling the thermal flow

Xiangyu Li, Yufan Zhao, Yiqi Peng, Shuoqing Shi, Kunyu Liu, Guangyao Xu, Yuchao Lei, Nannan Lu, Hao Wang, Xin Lin

2025Materials Research Letters53 citationsDOIOpen Access PDF

Abstract

This study demonstrates the fabrication of a bulk crack-free superalloy specimen with a predominantly {001} <100> single-crystalline-like texture using laser powder bed fusion (LPBF). Laser modulation produced a uniform temperature gradient at the solid–liquid interface along the build direction. The formation of stray grains was suppressed by reducing the melt flow velocity and enhancing the stability of the melt pool. Interlayer orthogonal scanning ensured that the lateral heat flow in the horizontal plane was parallel to the [100] and [010] crystal orientations, thereby suppressing high-angle grain boundaries. Thus, the largest-sized single-crystal-like IN738 alloy built by LPBF to date was achieved.

Topics & Concepts

Materials scienceSuperalloyAlloyFabricationFusionLaserTexture (cosmology)Composite materialTemperature gradientThermal stabilityMetallurgyThermalGrain sizeCrystal (programming language)Flow (mathematics)Grain boundaryMelt flow indexSelective laser meltingPlane (geometry)EpitaxyScanning electron microscopeLaser scanningInertial confinement fusionDwell timeSingle crystalGrain growthAdditive Manufacturing Materials and ProcessesHigh Entropy Alloys StudiesWelding Techniques and Residual Stresses
Bulk single-crystal-like IN738 alloy fabricated using laser powder bed fusion by controlling the thermal flow | Litcius