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Title: Stress in thin wall structures made by layer addivite manufacturing
Authors: Luzin, V
Hoye, N
Keywords: Residual stresses
OPAL Reactor
Issue Date: 3-Jul-2016
Publisher: Materials Research Forum LLC
Citation: Luzin, V., & Hoye, N. (2016). Stress in thin wall structures made by layer addivite manufacturing. Paper presented to the 10th International Conference on Residual Stresses (ICRS 10), Sydney, Australia, 3-7 July, 2016. In T. M. Holden, T. M., O. Muránsky, & L. Edwards (Eds) (2017). Residual stresses ICRS-10. Millersville, USA: Materials Research Forum LLC. doi:10.21741/9781945291173-84
Abstract: Manufacturing of thin wall structures is one of the main applications of additive manufacturing, where it has significant advantages over traditional milling and machining techniques or welded analogues. Such thin walled structures are common in structural aerospace components, and are also frequently made from titanium alloys. For such large-scale components, layer deposition strategy is more advantageous rather than a pixel-wise deposition approach due to the demand for high productivity and size requirements. Several techniques can be used to produce layer-wise buildups, including laser-powered Direct Metal Deposition (DMD) process or gas tungsten arc welding (GTAW). Although, in the general case of arbitrary thin wall structures the stress distribution is complex, for some simple geometries, the stress state is simple and can be well characterized within a model by a single parameter representing a layer deposition stress in the steady-state regime. The model calculations were verified by experimental results on a thin-walled sample component that was manufactured from Ti-6Al-4V by GTAW with the residual stresses measured using KOWARI neutron strain scanner at the OPAL research reactor (ANSTO). © The Authors
ISBN: 978-1-94529116-6
Appears in Collections:Conference Publications

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