2022
DOI: 10.3390/ma15062051
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Hot Isostatic Pressing for Fatigue Critical Additively Manufactured Ti-6Al-4V

Abstract: The efficacy of hot isostatic pressing (HIP) for enhancing fatigue performance is investigated for additively manufactured (AM) Ti-6Al-4V. The limitations of HIP are probed by varying the initial material state via the selection of AM system, powder chemical composition, and process parameters. We demonstrate that the fatigue performance of HIP’d AM Ti-6Al-4V depends on the as-built quality of the material. Differences in common material attributes, such as pre-HIP defect populations or post-HIP microstructure… Show more

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Cited by 21 publications
(13 citation statements)
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“…Studies on the possible beneficial effects of reducing HIP temperature while increasing pressure are scarce, as previously reviewed. However, the work of Moran et al [22] must be mentioned as a comprehensive comparison between a standard HIP, i.e. at 920 • C and 100 MPa as recommended by the ASTM F2924, and two alternative cycles: a super-Beta HIP at 1050 • C and 100 MPa in which fatigue behaviour was considerably worse due to the α-grain coarsening, and a low-temperature high-pressure HIP (LTHP-HIP) at 800 • C and 200 MPa.…”
Section: Finementioning
confidence: 98%
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“…Studies on the possible beneficial effects of reducing HIP temperature while increasing pressure are scarce, as previously reviewed. However, the work of Moran et al [22] must be mentioned as a comprehensive comparison between a standard HIP, i.e. at 920 • C and 100 MPa as recommended by the ASTM F2924, and two alternative cycles: a super-Beta HIP at 1050 • C and 100 MPa in which fatigue behaviour was considerably worse due to the α-grain coarsening, and a low-temperature high-pressure HIP (LTHP-HIP) at 800 • C and 200 MPa.…”
Section: Finementioning
confidence: 98%
“…This LTHP-HIP was demonstrated to minimize microstructure coarsening and resulted in the best fatigue performance. Despite some authors [21,22] claim that the size and shape of defects are not expected to control high cycle fatigue, it is clear that a decrease in defect population will reduce fatigue initiation sites. Therefore, the present works tries to shed light into the relationship between microstructure, defects and fatigue life after a low-temperature high-pressure HIP process.…”
Section: Finementioning
confidence: 99%
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“…The original model often needs to be re-designed to unleash the full potential of additive manufacturing. The designers need to consider different aspects of the value-chain during the design process, e.g., the support structures, fixturing and clamping for post machining process [11,12] and distortion control and microstructure development during thermal post treatments [13] to ensure the functional requirements are met.…”
Section: Introductionmentioning
confidence: 99%