Corrosion fatigue behavior of continuous gradient porous Ti‐15Mo alloy prepared by selective laser melting

Corrosion fatigue behavior of continuous gradient porous Ti‐15Mo alloy prepared by selective laser melting

In this work, porous Ti‐15Mo scaffolds with different porosity gradient structures (uniform gradient structures [U‐BCC], level gradient structures [LG‐BCC], and vertical gradient structures [VG‐BCC]) were fabricated by selective laser melting, and the corrosion fatigue testing in Hank's solutio...

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Veröffentlicht in:Fatigue & fracture of engineering materials & structures 2024-03, Vol.47 (3), p.1008-1023
Hauptverfasser: Chen, Jian, Chen, De, Zhou, Libo, Shi, Er, Chen, Wei, Peng, Erkang, Fan, Men, Ren, Yanjie, Niu, Yan, Li, Zhou, Li, Cong
Format: Artikel
Sprache:eng
Schlagworte:
Corrosion
Corrosion fatigue
Corrosion resistance
Corrosion tests
Crack initiation
Deformation effects
Energy dissipation
Fatigue failure
Fatigue life
Fatigue strength
Fatigue tests
Fracture mechanics
gradient structure
Grain refinement
Heat treating
Laser beam melting
Roughening
selective laser melting
Titanium base alloys
Ti‐15Mo
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Zusammenfassung:In this work, porous Ti‐15Mo scaffolds with different porosity gradient structures (uniform gradient structures [U‐BCC], level gradient structures [LG‐BCC], and vertical gradient structures [VG‐BCC]) were fabricated by selective laser melting, and the corrosion fatigue testing in Hank's solution was conducted for the first time. The fatigue strength order, when considering the same fatigue life, follows the sequence of LG‐BCC structure > U‐BCC structure > VG‐BCC structure. Cyclic ratcheting is a prominent factor leading to fatigue failure. The sequence of crack initiation and propagation in the latter stage of corrosion fatigue can be listed as follows: LG‐BCC structure 
ISSN:8756-758X
1460-2695
DOI:10.1111/ffe.14225