High cycle fatigue strength of hot isostatically pressed and chemically etched laser powder bed fusion produced Ti-6Al-4V-Reference-Cited by-同舟云学术

High cycle fatigue strength of hot isostatically pressed and chemically etched laser powder bed fusion produced Ti-6Al-4V

Published:2023-10 Issue: Volume:175 Page:107774
ISSN:0142-1123
Container-title:International Journal of Fatigue
language:en
Short-container-title:International Journal of Fatigue

Author:

Andrew Hills Michael,Scott Malcolm Jarryd,Mohamed Dhansay Nur,Hermann Becker Thorsten

Publisher

Elsevier BV

Subject

Industrial and Manufacturing Engineering,Mechanical Engineering,Mechanics of Materials,General Materials Science,Modeling and Simulation

Reference66 articles.

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2. Optimization of surface roughness and dimensional accuracy in LPBF additive manufacturing;Cao;Opt Laser Technol,2021

3. The effect of HF-HNO3 chemical polishing on the surface roughness and fatigue life of laser powder bed fusion produced Ti6Al4V;Bezuidenhout;Mater Today Commun,2020

4. Application of mechanical surface finishing processes for roughness reduction and fatigue improvement of additively manufactured Ti-6Al-4V parts;Bagehorn;Int J Fatigue,2017

5. Effect of Surface Roughness on Fatigue Strength of Ti-6Al-4V Alloy Manufactured by Additive Manufacturing;Nakatani;Procedia Struct Integrity,2019

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1. Effect of post-processing treatments on surface roughness and mechanical properties of laser powder bed fusion of Ti–6Al–4V;Journal of Materials Research and Technology;2024-09

2. High-Cycle Fatigue Performance of Laser Powder Bed Fusion Ti-6Al-4V Alloy with Inherent Internal Defects: A Critical Literature Review;Metals;2024-08-27

3. Investigating post-processing impact on fatigue performance of LPBF Ti6Al4V with heat treatment, high pressure heat treatment, and dry electropolishing strategies;International Journal of Fatigue;2024-08

4. Microstructural effects on the rotating bending fatigue behavior of Ti–6Al–4V produced via laser powder bed fusion with novel heat treatments;International Journal of Fatigue;2024-08

5. Comparison of fatigue life behavior between 4-point and uniaxial loading for L-PBF Ti–6Al–4V after HIP treatments;Results in Materials;2024-06