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#7416. Electrochemical and thermal-induced degradation of additively manufactured titanium alloys: a review

October 2026	publication date
Proposal available till	01-06-2025
4 total number of authors per manuscript	0 $

The title of the journal is available only for the authors who have already paid for

Journal’s subject area:

Physical and Theoretical Chemistry; Electrical and Electronic Engineering; Condensed Matter Physics; Chemical Engineering (all); Electronic, Optical and Magnetic Materials;

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Abstract:
Titanium (Ti)-based alloys wield unique combination of mechanical, chemical, and high temperature properties, which place them at the forefront of engineering applications ranging from biomedical to aerospace. Among these properties, electrochemical and thermal-induced degradation involving corrosion and high-temperature oxidation, respectively, are critical as they impact service life of the component. Advanced manufacturing techniques under additive manufacturing (AM) offer capabilities of fabricating complex structural and functional, near-net shaped engineering components. Owing to the excellent weldability, and ease of precursor (powder/wire) formability, Ti alloys are especially suitable for production using AM techniques.
Keywords:
Additive manufacturing; corrosion and high temperature oxidation; direct energy deposition; laser powder bed fusion; Ti based alloys

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