Stress localization investigation of additively manufactured GRCop-42 thin-wall structure

Subhadip Sahoo, Mohammad M. Keleshteri, Jason R. Mayeur, Kavan Hazeli

Research output: Contribution to journalArticlepeer-review

2 Scopus citations

Abstract

A full-field crystal plasticity (CP) framework is presented for the GRCop-42 alloy to study microscopic mechanical behavior and local stress heterogeneities. The microstructures of additively manufactured (AM) materials are often unique relative to conventionally processed materials, and the local thermal histories drive these differences during the build process. These thermal histories depend on the process parameters (laser power, scan speed, and scan strategy) and the part geometry. Prior research has shown that the mechanical properties of thin-walled structures can vary significantly with wall thickness due to changes in the thermal boundary conditions during manufacturing. It is, therefore, desirable to perform CP simulations based on the phenomenological constitutive model to predict the local mechanical responses induced by microstructural heterogeneities. This work generates representative microstructures based on experimentally collected grain information (i.e., texture) for grain scale stress analysis, and the material constitutive parameters are calibrated using the experimental mechanical testing data. We specifically investigated the effect of crystallographic texture and grain morphologies on the size-dependent mechanical properties of AM GRCop-42. The selection of appropriate material properties for implementing an effective free surface boundary condition and the influence of adjacent buffer layers are also discussed. Analysis of local field results reveals a strong correlation between stress localization and the initial grain orientation. However, no significant relationship between the misorientation of the individual adjacent grains and the average misorientation is observed.

Original languageEnglish
Article number112022
JournalThin-Walled Structures
Volume201
DOIs
StatePublished - Aug 1 2024

Keywords

  • Additive manufacturing
  • Crystal plasticity
  • GRCop-42 alloys
  • Size effect
  • Thin-walled structures

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