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A multiscale material model for metallic powder compaction during hot isostatic pressing

Borja Elguezabal, J.M. Martínez–Esnaola, Rafael Soler, Estíbaliz Paños, Jon Alkorta

2023Powder Technology12 citationsDOIOpen Access PDF

Abstract

The prediction of the distortions during Near-Net-Shape Hot Isostatic Pressing (NNS-HIP) is an intrinsic multiscale problem where the local interactions among particles determine the macroscopic distortions taking place during the sintering and densification of a component. In this work, a multiscale approach is proposed to solve this problem. In particular, a viscoplastic constitutive model capable of predicting macroscopic contractions during a HIP process with high accuracy has been developed, implemented and validated. The macroscopic model incorporates the mechanical behaviour predicted at the meso-scale by means of multiple-particle finite element models (MP-FEM) of an agglomerate of powder particles. The model is validated through the prediction of distortions during HIP of a full scale industrial case. It is concluded that adding the microscopic information of the HIP process to simulate the contractions at the macroscopic level results in a considerable improvement of the accuracy of the predictions.

Topics & Concepts

Hot isostatic pressingMaterials scienceAgglomerateFinite element methodCompactionViscoplasticitySinteringParticle (ecology)PressingWork (physics)Metal powderConstitutive equationComposite materialMechanicsMetallurgyMechanical engineeringStructural engineeringGeologyMetalEngineeringPhysicsOceanographyPowder Metallurgy Techniques and MaterialsInjection Molding Process and PropertiesAdvanced materials and composites