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Improved dynamic impact behaviour of wire-arc additive manufactured ATI 718Plus®
University of Manitoba, Department of Mechanical Engineering, Winnipeg, R3T 5V6, Canada.
Högskolan Väst, Institutionen för ingenjörsvetenskap, Avdelningen för svetsteknologi (SV). (PTW)ORCID-id: 0000-0001-9065-0741
University of Manitoba, Department of Mechanical Engineering, Winnipeg, R3T 5V6, Canada.
2018 (engelsk)Inngår i: Materials Science & Engineering: A, ISSN 0921-5093, E-ISSN 1873-4936, Vol. 738, s. 111-124Artikkel i tidsskrift (Fagfellevurdert) Published
Abstract [en]

The dynamic response and impact resistance of wire-arc additive manufactured (AMed) and wrought ATI 718Plus in different heat treatment conditions are characterised by using a direct impact Hopkinson pressure bar system. In addition, microstructural analyses of the alloys, before and after impact, are characterised by using advanced microscopy techniques, including scanning electron and transmission electron microscopies. The experimental results show that the impact resistance of the AMed alloy in the as-processed condition is inferior to that of the wrought alloy. The lower impact resistance is attributed to the presence of eutectic solidification constituents in the interdendritic regions and to the inhomogeneous distribution of the strengthening precipitates in the deposit. After the application of the recommended heat treatment for ATI 718Plus, excessive formation of η-phase particles are observed in the microstructure in addition to Laves phase particles. Since the recommended heat treatment for ATI 718Plus is not sufficient to eliminate the deleterious phases and optimise the properties of the alloy, a novel heat treatment procedure is proposed. Dynamic impact study of the AMed alloy after the application of the proposed approach shows that the alloy exhibits a dynamic response and impact resistance comparable to those of the wrought alloy. Furthermore, under high impact momentum, both the wrought and the AMed alloys fail due to the adiabatic shear band. A transmission electron microscopy analysis of the deformed alloys suggests the dissolution of the γ’ precipitates in the shear band as well as in the adjacent regions to the shear band. Increase in the rate of dissolution of the precipitates due to strain-assisted diffusion coupled with an increase in the adiabatic temperature during deformation, are likely causes of the dissolution of the precipitates in the shear band regions. © 2018 Elsevier B.V.

sted, utgiver, år, opplag, sider
2018. Vol. 738, s. 111-124
Emneord [en]
3D printers; Deformation; Dissolution; Dynamic response; Heat resistance; High resolution transmission electron microscopy; Optical microscopy; Shear bands; Solidification; Strain rate; Superalloys; Transmission electron microscopy, Adiabatic shear band; Eutectic solidification; Heat treatment conditions; High strain rate deformation; Inhomogeneous distribution; Interdendritic regions; Microstructural analysis; Strain-assisted diffusion, Heat treatment
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Forskningsprogram
TEKNIK, Produktions- och materialteknik
Identifikatorer
URN: urn:nbn:se:hv:diva-13038DOI: 10.1016/j.msea.2018.09.079ISI: 000450377700014Scopus ID: 2-s2.0-85054099188OAI: oai:DiVA.org:hv-13038DiVA, id: diva2:1259050
Merknad

Funders: Natural Sciences and Engineering Research Council of Canada 

Tilgjengelig fra: 2018-10-26 Laget: 2018-10-26 Sist oppdatert: 2019-05-28bibliografisk kontrollert

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Andersson, Joel

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