A numerical modelling for laser Powder-bed fusion of Ti-alloy with a hybrid heat Source: An investigation on solidification and microstructure formation
Author:
Funder
NSERC
Publisher
Elsevier BV
Reference36 articles.
1. Metal additive manufacturing: Technology, metallurgy and modelling;Cooke;J. Manuf. Process.,2020
2. On the effect of laser powder-bed fusion process parameters on quasi-static and fatigue behaviour of Hastelloy X: A microstructure/defect interaction study;Esmaeilizadeh;Addit. Manuf.,2021
3. Process parameter selection and optimization of laser powder bed fusion for 316L stainless steel: a review;Ahmed;J. Manuf. Process.,2022
4. Selective laser melting of titanium parts: Influence of laser process parameters on macro- and microstructures and tensile property;Sun;Powder Technol.,2019
5. Prediction of microstructure in laser powder bed fusion process;Acharya;Acta Mater.,2017
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1. Investigation on microstructure and tribological properties of Ti2AlC-Ni reinforced Fe-based prepared by high-speed laser cladding;Surface and Coatings Technology;2024-08
2. Model-Based Sensitivity Analysis of the Temperature in Laser Powder Bed Fusion;Materials;2024-05-27
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