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About this Abstract
Meeting	MS&T23: Materials Science & Technology
Symposium	Additive Manufacturing Modeling, Simulation, and Machine Learning: Microstructure, Mechanics, and Process
Presentation Title	A Unified Treatment of Alloy Dependent Material Properties and Process Parameters for Accurate Solidification Simulations for AM Based on CALPHAD
Author(s)	Paul Mason, Amer Malik, Quang Minh Do, Johan Jeppsson, Andreas Markstrom
On-Site Speaker (Planned)	Paul Mason
Abstract Scope	Composition of alloys and their viscosity, surface tension of liquid, thermal/electrical conductivity all as a function of temperature, are important properties for modeling the AM process together with heat and heat capacity. While the treatment of heat and fluid flow is considered as state of the art in current FEM models, material properties are treated in a highly simplified manner. During the last few years new models to predict thermophysical material properties using the CALPHAD method have been developed and by adopting a unified treatment of both process parameters and alloy dependent thermophysical properties, there is the potential for more accurate solidification simulations for AM. This presentation will describe how such an approach has been implemented into Thermo-Calc through an add-on module for Additive Manufacturing. This combined approach can be thought of as an example of ICME. Examples will be shown together with other ongoing/completed developments related to AM.

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

3-Dimensional Microstructure Characterization of Laser Powder Bed Fusion IN625 and IN718

3D Deep Learning for Porosity Analysis in Additive Manufacturing

A-1: 3D Printed Ceramics for Solid-state Battery Components

A-22: Enhancing Material Properties in Multi-Material 3D Printing: Exploring In-Situ Mixing and Material Gradation

A-23: Mechanical Ventilator Prototype Using 3D Printed Components

A-2: Deep Learning Assisted Material Structure Property Linkage of 3D Printed AlSi10Mg Alloy

A-3: Density Functional Theory Based Methods for Predicting Interfacial Strengths in Thermal Barrier Coatings with MXene Using Spark Plasma Sintering

A-4: Developing Virtual Reality Models to Simulate Additive Manufacturing Process

A-5: Extrusion Based 3D Printing of Silicon Carbide

A-6: Inkjet 3D Printing of Biodegradable Materials

A-7: Modeling Laser Heating Phenomenon in Refractory Metal Powder Bed Fusion Process

A-8: Simulation of Shell Thickness and Inclusions Trajectory in Casting Mold of Round Steel Billet Continuous Casting

A Molecular Dynamics Study on the Micro Cold Spray of Zinc Oxide Films

A Unified Treatment of Alloy Dependent Material Properties and Process Parameters for Accurate Solidification Simulations for AM Based on CALPHAD

Analyzing and Predicting Surface Roughness in Laser Powder Bend Fusion

Better Understanding of Cracking Phenomena in High-Strength Superalloys through Multiphysics Modeling in Additive Manufacturing

Computational and Experimental Study of Up-/Down-surface Characteristics of Sloped Samples in L-PBF Process

Effect of Size, Location, and Aspect Ratio of Pores on Ductility of PBF-LB Ti-6Al-4V: Experiments and Simulations

Examining the Effect of an Oxide Layer on the Deposition of Tantalum Films via Micro-Cold Spray

Finite Element Simulation Based on Constitutive Model of Cellular-structured Metals Produced by Additive Manufacturing

Gas Atomization of Mg-Zn-Ca-Mn Alloy Powder for Additive Manufacturing

Mechanical Properties of Truss-based Nanolattices: A Molecular Dynamics Study

Microstructure Evolution Simulation of Inconel 718 Superalloy during Laser Powder Bed Fusion (LPBF) Process

Modeling In-Situ Phase Transformation in Inconel 718 and EH36: A Study Using Phase Field and Phase Fraction Models

Multi-Model Monte Carlo Simulations of Mechanical Behavior of Additively Manufactured Metals

Open-source Numerical Simulations of Melt Pool Physics in Laser Powder Bed Fusion Processes

Physics-constrained, Inverse Design of High-temperature Strength Printable Aluminum Alloys with Low Cost and CO₂ Emissions for High Demand Industries

Physics Informed Reduced Order Model for Directed Energy Deposition Simulations in MALAMUTE

Predicting Material Properties in Additive Manufacturing Using Acoustic Signatures and Machine Learning

Quantification of Carbide Pickup and Quality Control of SS 316L Manufactured via Binder Jet Printing

Quantification of Spatter Counts and Trajectories in Laser Powder Bed Fusion using Machine Learning Analysis of High Speed Imaging

Simulating the 3D Printing Process of Hydroxyapatite Powders

Simulation of Anisotropic Mechanical Behavior of Additively Manufactured Ti-6Al-4V Wall Structures using VPSC

The Effect of Disorder and Constitutive Material on the Mechanical Properties of Bioinspired Honeycombs

Use of Machine Learning to Identify Process-Structure-Property Relationships in PBF-LB AlSi10Mg

Utilizing Cellular Automata to Resolve Process Parameter to Microstructure Correlations in LPBF Additively Manufactured Parts

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