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Surface, microstructure, and tensile deformation characterization of LPBF SS316L microstruts micromachined with femtosecond laser

Abhi Ghosh, Sanchari Biswas, Tiffany Turner, Anne‐Marie Kietzig, Mathieu Brochu

2021Materials & Design29 citationsDOIOpen Access PDF

Abstract

Considerable surface roughness, dimensional deviation, and non-uniform microstructure are a few of the characteristics found on thin or micro-scale features fabricated via laser powder bed fusion (LPBF) that yield inferior and/or inconsistent mechanical properties. Femtosecond laser micromachining can aid in fabricating micro-scale parts with ultra-high dimensional precision. In this work, the surface and tensile behavior of microstruts of 500μm nominal diameter micromachined with Gaussian laser pulses of <100fs duration are characterized. Roughness parameters such as Ra=0.9±0.2μm and Rz=3.4±1.3μm are achieved on the micromachined faces. Surface-associated grains are successfully ablated with negligible microstructural damage to the microstruts. As a result, the average uniform strain under quasi-static tensile loading is measured as 0.54±0.02 compared to 0.42±0.01 for the as-built microstruts. Uniform and non-uniform deformation strain portions are separated analytically and characterized primarily via in-situ imaging. Progressive degradation of the surface and dimensional variance is observed on the micromachined test specimens. Post necking initiation, ablation-associated asperities on the micromachined surfaces evolve into notches, leading to tensile failure.

Topics & Concepts

Materials scienceNeckingMicrostructureUltimate tensile strengthSurface roughnessComposite materialSurface micromachiningFemtosecondLaserDeformation (meteorology)Tensile testingSurface finishOpticsFabricationPathologyAlternative medicineMedicinePhysicsAdditive Manufacturing Materials and ProcessesLaser Material Processing TechniquesWelding Techniques and Residual Stresses
Surface, microstructure, and tensile deformation characterization of LPBF SS316L microstruts micromachined with femtosecond laser | Litcius