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Materials Science in Additive Manufacturing Survey of AM reviews

Table 4. (Continued)
Category Keywords Article title First author Reference
Ti-based alloys Mechanical Additive manufacturing and post-processing of Ti-6Al-4V for Qian et al. [155]
superior mechanical properties
Fatigue A review of the as-built SLM Ti-6Al-4V mechanical properties Agius et al. [156]
towards achieving fatigue resistant designs
Biomedical A review of powdered additive manufacturing techniques for Harun et al. [157]
Ti-6al-4v biomedical applications
Chemical polishing Chemical polishing of scaffolds made of Ti-6Al-7Nb alloy by Lyczkowska et al. [158]
additive manufacturing
Mechanical Mechanical properties of titanium-based Ti–6Al–4V alloys Tong et al. [159]
manufactured by powder bed additive manufacture
Process parameters Selective laser manufacturing of Ti-based alloys and Singh et al. [82]
composites: impact of process parameters, application trends,
and future prospects
Heat treatment A review of heat treatments on improving the quality and Teixeira et al. [83]
residual stresses of the Ti–6Al–4V parts produced by additive
manufacturing
Surface roughness A review on the influence of process variables on the surface de Campos Carolo and [160]
roughness of Ti-6Al-4V by electron beam powder bed fusion Ordoñez
Biomaterial Bioink Bioink properties before, during and after 3D bioprinting Hölzl et al. [161]
Biomedical; tissue 3D bioprinting for biomedical devices and tissue engineering: Derakhshanfar et al. [162]
A review of recent trends and advances
Printability Printability and Shape Fidelity of Bioinks in 3D Bioprinting Schwab et al. [163]
Cell-Hydrogels Design and printing strategies in 3D bioprinting of Lee et al. [164]
cell-hydrogels: A review
Skin 3D bioprinting of skin: A state-of-the-art review on modeling, Vijayavenkataraman et al. [165]
materials, and processes
Hydrogel 3D bioprinting of photo crosslinkable hydrogel constructs Pereira et al. [166]
Cardiac tissue; cell 3D Bioprinting of cardiac tissue and cardiac stem cell therapy Alonzo et al. [167]
Machine learning A perspective on using machine learning in 3D bioprinting Yu et al. [168]
Organ The emergence of 3D bioprinting in organ-on-chip systems Fetah et al. [169]
Liver transplantation Bioprinting for liver transplantation Kryou et al. [170]
Process parameters Effects of processing parameters of 3D bioprinting on the Adhikari et al. [171]
cellular activity of bioinks
Concrete Simulation Numerical simulations of concrete processing: From standard Roussel et al. [172]
formative casting to additive manufacturing
Extrusion-based Extrusion-based additive manufacturing of concrete products: Valente et al. [173]
Revolutionizing and remodeling the construction industry
Biomimicry Biomimicry for 3D concrete printing: A review and perspective du Plessis et al. [174]
Functionally graded On-demand additive manufacturing of functionally graded Ahmed et al. [175]
concrete concrete
Fiber Carbon fiber Additively manufactured carbon fiber-reinforced composites: van de Werken et al. [176]
State of the art and perspective
Natural fiber Recent advancements of plant-based natural fiber–reinforced Li et al. [177]
composites and their applications
Mechanical The mechanical testing and performance analysis of polymer-fiber Shanmugam et al. [178]
composites prepared through the additive manufacturing
FDM A review on fiber reinforced composite printing via FFF Ferreira et al. [179]
Continuous fiber Material extrusion additive manufacturing of continuous fiber Zhuo et al. [5]
reinforced polymer matrix composites: A review and outlook
(Contd...)

Volume 1 Issue 4 (2022) 10 https://doi.org/10.18063/msam.v1i4.21

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