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Meeting	Materials Science & Technology 2020
Symposium	Additive Manufacturing Modeling and Simulation: AM Materials, Processes, and Mechanics
Presentation Title	A System Dynamics approach to submodels for Residual Stress Predictions of SLM Parts
Author(s)	Jose Mayi-Rivas, Seetha Raghavan
On-Site Speaker (Planned)	Jose Mayi-Rivas
Abstract Scope	Accurate predictions of residual stress distributions within Additive Manufacturing parts typically require complex thermomechanical finite element models (FEM). One of the main methods to reduce model complexity involves the use of a micro or mesoscale submodel, results of which are then applied to a macroscale simulation to obtain complete displacement and stress fields. This work proposes an innovative approach by replacing the micro level FEM with energy-based system dynamic equations that can be explicitly correlated to the sum of all contributions to the residual stress. Results are validated with existing FEM submodels in literature and eventually with X-ray diffraction measurements.

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

A Discrete Dendrite Dynamics Model for Fast Epitaxial Columnar Grain Growth in Metal Additive Manufacturing

A Process Parameter Prediction Framework for Metal Additive Manufacturing

A System Dynamics approach to submodels for Residual Stress Predictions of SLM Parts

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Modeling Hot Cracking in Metal Additive Manufacturing

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