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Analysis and constitutive modelling of high strain rate deformation behaviour of wire-arc additive-manufactured ATI 718Plus superalloy
University of Manitoba, Department of Mechanical Engineering, Winnipeg, R3T 5V6, Canada.
University West, Department of Engineering Science, Division of Welding Technology. (PTW)ORCID iD: 0000-0001-9065-0741
University of Manitoba, Department of Mechanical Engineering, Winnipeg, R3T 5V6, Canada.
2019 (English)In: The International Journal of Advanced Manufacturing Technology, ISSN 0268-3768, E-ISSN 1433-3015, Vol. 3, no 1-4, p. 1419-1431Article in journal (Refereed) Epub ahead of print
Abstract [en]

A fundamental prerequisite for obtaining realistic finite element simulation of machining processes, which has become a key machinability assessment for metals and alloys, is the establishment of a reliable material model. To obtain the constitutive model for wire-arc additive-manufactured ATI 718Plus, Hopkinson pressure bar is used to characterise the flow stress of the alloy over a wide range of temperatures and strain rates. Experiment results show that the deformation behaviours of as-deposited ATI 718Plus superalloy are influenced by the applied strain rate, test temperature and strain. Post-deformation microstructures show localised deformation within the deposit, which is attributable to the heterogeneous distribution of the strengthening precipitates in as-deposited ATI 718Plus. Furthermore, cracks are observed to be preferentially initiated at the brittle eutectic solidification constituents within the localised band. Constitutive models, based on the strain-compensated Arrhenius-type model and the modified Johnson-Cook model, are developed for the deposit based on experimental data. Standard statistical parameters, correlation coefficient (R), root-mean-square error (RMSE) and average absolute relative error (AARE) are used to assess the reliability of the models. The results show that the modified Johnson-Cook model has better reliability in predicting the dynamic flow stress of wire-arc-deposited ATI 718Plus superalloy. © 2019, Springer-Verlag London Ltd., part of Springer Nature.

Place, publisher, year, edition, pages
2019. Vol. 3, no 1-4, p. 1419-1431
Keywords [en]
3D printers, Additives, Constitutive models, Deformation, Deposits, Machinability, Machining, Mean square error, Metallurgy, Nickel alloys, Plastic flow, Solidification, Superalloys, Wire, Deformation microstructure, Finite element simulations, Heterogeneous distributions, High strain rate deformation, High strain rates, Machinability assessment, Ni-based superalloys, Root mean square errors, Strain rate
National Category
Manufacturing, Surface and Joining Technology
Research subject
ENGINEERING, Manufacturing and materials engineering
Identifiers
URN: urn:nbn:se:hv:diva-13848DOI: 10.1007/s00170-019-03616-2Scopus ID: 2-s2.0-85064476747OAI: oai:DiVA.org:hv-13848DiVA, id: diva2:1317887
Note

First Online: 05 April 2019

Funders; Natural Sciences and Engineering Research Council of Canada

Available from: 2019-05-24 Created: 2019-05-24 Last updated: 2019-07-26Bibliographically approved

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Andersson, Joel

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