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About this Symposium
Meeting 5th World Congress on Integrated Computational Materials Engineering (ICME 2019)
Symposium ICME 2019
Organizer(s) Vasisht Venkatesh, Pratt & Whitney
Scope The key goals of ICME 2019 are to convene stakeholders from across all areas of modeling and simulation, experimental specialization, and design, as well as from across academia, government, and industry, to address ICME tools and techniques and their integration, as well as to examine their application in engineering. This congress will provide a forum for presentations and discussions centering on ICME-related topics, including:
The wide range of materials programs where an ICME approach validated by experimental efforts is applicable, including computational- and experimental-based talks
Individual computational methods utilized in an ICME approach, including both advantages and limitations
Roles of ICME in continuing education in industry
High-throughput computing application in ICME
Development of materials processing and materials characterization technology
Incorporation of “big data, data fusion, and machine learning” for materials and product development with ICME methodologies
Development of database and database technology for ICME
Bridging the gap of across-scale materials simulation
Success stories of ICME on materials development
ICME implementation strategies
Verification, validation, and uncertainty quantification issues
Interoperability, data, and communications standards
ICME networking initiatives around the world
Abstracts Due 01/28/2019
Proceedings Plan Planned: Other (describe below)
PRESENTATIONS APPROVED FOR THIS SYMPOSIUM INCLUDE

A Benchmark on Modeling of Incremental Forming of Aluminum 7075-O
A Crystal Plasticity Model for the Prediction Quench Cracking of Carbon Steels
A Digital Twin for the Design Space of Welded Structures
A Framework to Support the Integrated Design of an Energy Absorbent Foam for Football Helmets
A Machine Learning Approach for Crystal Plasticity Modeling of Ti-7Al Alloy under Uncertainties
A Multi-scale Characterization of Strain Localization in Ni-based Superalloys – Combined HEDM and Dark Field X-ray Microscopy
A New Bimodal Microstructure Design for Improving Metal Fatigue
A Parametric Study on the Role of Composition on Process-induced Voids during Additive Manufacture of Nickel-based Superalloys
A Smoothed Particle Hydrodynamics (SPH) Procedure for Simulating Cold Spray Process - An Additive Manufacturing Process without Heat Supply
A Tool to Generate Representative Grain-resolved Open-cell Foam Models
Achieving Complete Interoperability in Materials Data
Achieving Large Volume Grain Statistics with X-ray Diffraction Contrast Tomography
Advanced Processing and Visualization of 3D EBSD/EDS Experimental Data
AixViPMaP® - An Operational Platform for Microstructure Modelling Workflows
Alloy Hunting with Bayesian Optimization
AM-Bench, A Set of Controlled Benchmarks for Additive Manufacturing
An ICME Approach for Additive Manufacturing
An ICME Modeling Application in Aircraft Tie-down Design Improvement for Ship Production
An Informed Machine Learning Approach to Predict High Rate Deformation of Carbon Steels
An Integrated Approach to Simulating and Characterizing Gamma Prime Precipitation in Nickel Superalloys
An Integrated Computational Materials Engineering Framework for Designing Sintered Materials
Application of ICME towards Thin Wall Casting Technology Development at LIFT
Applications of CALPHAD Modeling and Integrated Computational Materials Engineering in Advanced Lightweight Metallic Materials
Benefits of Materials Modelling for Processing Simulation
Bond-order Model for Bond Energies in Alloys
Business Transition Considerations for Integrated Computational Materials Engineering
CALPHAD-based ICME Design for Additive Manufacturing: Success and Challenges
CALPHAD-based Sensitivity Analysis in Powder Composition Design for 3D Printing
CALPHAD in the Cloud – Webware and Framework for Uncertainty Quantification
Cellular Automata (CA) Modeling of Microstructure Development during Additive Manufacturing Processing*
Center for Hierarchical Materials Design: Workforce Training and Continuing Education for Industry
Cloud-based Materials and Products Realization – Fostering ICME via Industry 4.0
Concurrent Build and Melt Pool AM Simulations through Multi-physics Code Coupling*
Coupling Experiments and Simulations to Predict Microstructure and Yield Strength in Precipitation Hardened Aluminum Alloys
Crystal-plastic Modeling in the OOF Finite-element Solver
Crystal Plasticity Simulation of Fatigue Behavior in Extruded Magnesium Alloy
Damage Assessment and Remaining Creep Life Prediction for Serviced Turbine Blades Made of Directionally-solidified Nickel- base Superalloy by ICME Framework
Data-driven Molecular Dynamics Model of Laser Heating of Inconel 718 Powder with Experimental Validation
Data Assimilation for Fatigue Life Prediction of Welded Joint
Deep Materials Informatics: Illustrative Applications of Deep Learning in Materials Science
Design of Materials for Chemical Mechanical Planarization of Semiconductor Wafers
Developing a Combinatorial Modeling Approach to Multiscale Modeling and Predictions for High Entropy Alloy Design
Developing a Data-driven Model to Predict Microstructure-sensitive Spring Stiffness
Development and Application of a Microstructure-based Approach to Characterize and Model Failure Initiation in Dual-phase Steels
Development of a CALPHAD Based Steel Property Model Library for Martensite and Pearlite
Development of a Comprehensive Diffusion (Mobility) Database for Lightweight Mg Alloys
Development of Aeroengine Components through Multiscale Modelling
Development of Enhanced Friction Stir Welding (FSW) Tools Using ICME Approach
Development of ICME Methods to Improve High Pressure Die Casting (HPDC) Technologies for Thin-wall Aluminum Components
Development of Metallurgical through Process Models for the Development of New Low Carbon Strip Steel Grades
Effect of Layer Thickness on the Residual Stresses of CIGS Solar Cells due to Hotspot
Efficient Uncertainty Quantification and Propagation Workflows in ICME
Fatigue Behavior of Additive Manufactured IN718 and Ti-6Al-4V through Coupled Modeling and In Situ Experiments
Functional Uncertainty Quantification for Molecular Dynamics
Genome-based Multiscale Modeling of Crack Formation during Laser Directed Energy Deposition of Alumina Ceramics
Hall-Petch Relation and Boundary Strengthening in Mg Alloys
High Throughput Hot Isostatic Pressing Synthesis Technique for Bulk Multi-component Combinatorial Materials
Homogenization of 3D Metallic and Polymeric Microstructures in a ICME Context
ICME-based Approach to Design Quench and Partition (Q&P) Steels
ICME Approach to Predicting Texture Evolution of an Al-Li Alloy during Thermomechanical Processing
ICME Assessment of Cladding Repair Processes
ICME Design of a Corrosion Resistant HEA for Harsh Environments
ICME Design of Advanced Lightweight Steel
ICME Development of Carbon Fiber Composites for Lightweight Vehicles
ICME in Materials Education
In-situ Measurement and Numerical Simulation of Linear Friction Welding of Titanium Alloy
Incorporating Computer Vision and Machine Learning into the Materials Analysis Pipeline
Integrated Computational Materials Engineering-from Delhi Iron Pillar to Additive Manufacturing
Integrated Computational Materials Engineering in Prediction of Thermal and Thermally Motivated Deformation Behavior of Parts Produced using Additive Manufacturing
Integrated Computational Materials Engineering (ICME): Past, Present, and Future
Integrated Framework to Enable Engineering Realization of ICME for Iron Castings
Integrating Automated Computational Materials Engineering Workflows for Microstructure-scale Property Assessments in Engineering Design in Manufacturing
Integration of the CASM Statistical Mechanics Software Package with the Materials Commons Collaboration Platform and Information Repository
Investigating the Role of Impurities in Grain Boundary Phase Transformation with Atomistic Simulations
Investigation of Stiffness Coefficients of Pristine Graphene at Various Scales
LIFT ICME: A Strategic Initiative for Accelerating Manufacturing Innovation of Metallic Materials
LIFT TMP R4-6: ICME Approach to Linear Friction Welding of Ti-6Al-4V
Linear Friction Welding of Ti Components: Investigation of Residual Stress and Fatigue Performance
Local Property Analysis of AM Microstructures
Location-specific Microstructural Prediction of Forged AA2070 Parts
MatCloud: A High-throughput Computational Infrastructure for Integrated Management of Materials Simulation, Data and Resources
Materials Genome Tools to Predict Calcium-Magnesium-Alumino-Silicate (CMAS) Interactions on Thermal Barrier Coatings (TBC) and Enable Advanced CMAS-resistant TBC Design
Materials Integration Approach for Creep Damage Prediction of Heat-resistant Steel’s Weld Joint
Materials Integration Project for Structural Materials in Japan
Materials Margins Assurance: Incorporating Material Variability in Simulation Tools & Code
Materials of Tomorrow - The Design Approach
Melt Pool Modeling of Laser-powder Bed Fusion Additive Manufacturing Considering Non-spherical Particles
Micromechanics Driven Design of Martensitic Steel Microstructures
Microstructural Modeling in Laser Powder Bed Fusion (LPBF) Systems
Microstructure Based Process Modeling and Integration of U-10%wt Mo Alloys
Microstructure Modeling of Metal in Laser Powder Bed Fusion Process Using Combined Computational Fluid Dynamics and Cellular Automata Method
Microstructure Sensitive Critical Plastic Strain Energy Density Criterion for Fatigue Life Prediction across Various Loading Regimes
Modeling and Simulating Defects in Ionic Materials with a Concurrent Atomistic and Continuum Method
Modeling J2 Plasticity and Crystal Plasticity in a Unified Time-dependent Ginzburg-Landau Framework
Modeling Long-term Creep Behavior of Power Plant Steels
Modeling of Hydrogen Porosity Evolution and Dendritic Growth under Convection in Al-Cu Alloys
Modeling the Fatigue Performance of a Cast Polycrystalline Nickel Superalloy Using a Crystal Plasticity Approach
Modelling Microstructural Evolution in Additively Manufactured 316 Stainless Steel
Modelling Precipitation Kinetics during the Ageing Treatment of Al-Mg-Si-Cu Alloys
Modelling the High Temperature Deformation of Superalloys as Emergent Behaviour
Molecular Level Modeling of Polymer Crystallization
Multiscale Crystal Plasticity Simulation Based on Fatigue Indicator Parameters on Ultrafine-grained Metals
Online Simulation-powered Educational Resources for ICME
P10: A Machine Learning Algorithm Based Evaluation Method for Corrosion Resistance of Weathering Steels
P11: Fatigue Modeling of 3D Printed15-5 PH Stainless
P12: Development of New Rare Earth Superalloy for Additive Manufacturing
P13: Development of Prediction Techniques for Long-term Performance of Mg Alloys Based on Materials Integration Approach
P14: Development of Time-temperature-transformation and Properties Diagrams for Alloy 282 Using a Novel Arc Heat Treatment Technique
P15: Development of Workflow Subsystems and Structural Material Database with Direct Handling of Materials Parameters
P16: Lower Length Scale Simulations of Steel
P17: Effect of Temperature on the Mechanical Properties of Hydrogel: Modeling and Experiment
P18: Elastic Anisotropy and Mechanical Property of Au-Sn Intermetallics from First-principles Calculations
P19: Electronic Transport in Multi-component Amorphous Semiconductors
P1: 3D Modeling of Fracture of Brittle Granular Materials
P20: Exploring Correlations between Properties Using Artificial Neural Networks
P21: First-principles Investigation on the Stability and Oxygen Adsorption Behavior of a Ti2AlNb/TiAl Interface
P22: Gleeble and LUMet (Laser Ultrasonic Metallurgy)
P23: Heuristics for the Design of New Materials
P24: ICME Design for Lightweight Steels: Thermodynamics, Diffusion Mobility, Volume and Yield Strength Predictions
P25: Image Based Analysis for Stress Environment in Duplex Structure Stainless Steels
P26: Interaction between Cu and Cr Coadsorption on MnS Inclusions in Low Alloy Steel and Study of the Interfaces between α-Fe and MnS
P27: Materials Data Specification: Methods and Use Cases
P28: Interfacial Dielectric Analysis in Polymer Nanodielectrics from First Principles
P29: Thermal Fatigue Modeling of Thermal Barrier Coating
P2: A Modelling Based Approach towards Realizing Perovskite Solar Cells
P30: Investigation on Phase Transformations in Inconel 718 Alloys Manufactured by Suction Casting and Additive Manufacturing
P31: Knowledge Graph: A New Way from Materials Database to Knowledge Base
P32: Modeling of Impact Behavior of Ceramic Coatings Using Smoothed Particle Hydrodynamics Method
P34: Mathematical Modeling and Optimization of Polymer Composite Pine Fins
P36: Modeling of Temperature-dependent Impact Properties of 3D Printed 15-5 Stainless Steel
P37: Module-design and Prediction of Nonlinear Optical Materials with High Performances
P38: Prediction of Microstructure of Interdendritic Eutectic Phase during Solidification of Multi-component Alloys
P39: Recrystallization and Grain Growth Simulations for Multiple-pass Rolling and Annealing of U-10Mo
P3: A Study of ICME and Intelligent Manufacturing for Complex Nickel-based Superalloy Castings
P40: Simulation and Characterization for Novel Metal Nanomaterials and Heterostructures
P41: Simulation and Experiment Study on the Influence of Superimposed High-intensity Ultrasonic Vibration in Two Directions During ECAP
P42: Spectral Homogenization Approach for Precipitation-hardened Shape Memory Alloy Design
P43: SPS of Al-CNTs-Nb Nano Composite for Power Transmission Conductor Core
P45: Structural Evolution during Solidification Of Zr50Nb50 by Molecular Dynamics Simulation
P46: The Application of Deep Learning in Statistical Dendritic Spacing
P47: The Development of the SIP-MI System for Structural Materials
P48: Three-dimensional Imaging of Hydrogen Distribution in Titanium Alloys by Neutron Tomography
P4: Accurate Simulation of Complex Temperature Field in Aluminum Alloy Counter-pressure Casting Process
P51: A Digital Representation of a Microstructure and Determining Its Mechanical Behavior
P5: Calculation of Phase Equilibria in Ti–Al–Cr–V-Nb System for Developing High Entropy Alloys
P6: CFD-simulation of Siphone for Primary Aluminum Production
P7: Combinatorial Alloy Fabrication and Synergies with Predictive Frameworks for High-entropy Alloy Design and Down-selection
P8: Cellular Automaton Simulation of Hydrogen Porosity and Dendrite Growth During Solidification of a Ternary Al Alloy
P9: Computational Discovery of Stable MXenes Alloy Phases
Phase-field-immersed Boundary-lattice Boltzmann Simulations of Dendrite Growth and Motion by Employing Para-AMR Algorithm
Phase Field Modeling of Dendritic Microstructure in Additively Manufactured Titanium Alloy
Phase Field Modeling of the Effect of Microstructure during the Corrosion of Alloys
Phase Field Simulations of Delta Phase Precipitation during Annealing of Additively Processed Alloy 625
Plasma Modified C-doped Co3O4 Nanosheets for Oxygen Evolution Reaction Designed by Butler-Volmer and First Principle Calculations
Predicting Twin Nucleation in a Polycrystalline Mg Alloy Using Machine Learning Methods
Prediction of Creep Rupture Time for Steels Using Gradient Tree Boosting
Prediction of Mechanical Behavior of AM Materials Using Gurson Plasticity
PRISMS-Plasticity Crystal Plasticity Finite Element Software
Process-structure-properties-performance Modeling for Selective Laser Melting of 316L Stainless Steel
Rationalisation of Vapourisation during Powder Bed Fusion Additive Manufacturing in Nitinol and Nickel-based Superalloys
Re-thinking ICME for New Materials Discovery and Implementation
Robust Distortion Control and ICME Implementation to Support Ship Production Processes
Robust Integrated Design and Manufacturing Analysis of Composite Structures
Stochastic Multiscale Modeling of Random Structures
Strengthening Effect due to Solid Solution and Short Range Ordering in High Entropy Alloys using Molecular Dynamics Simulations
Studying the Effect of Dopants on Properties of Lightweight Materials with Atomistic Simulations
The Deep Connections between ICME, MGI, and AI
The Effects of Process Parameters on the Thermal History and Mechanical Behavior of Laser Powder Bed Fused 17-4 PH Stainless Steel
The Exascale Additive Manufacturing Project (ExaAM): Process Modeling at the Fidelity of the Microstructure
The Materials Commons: A Collaboration Platform and Information Repository for the Global Materials Community
The Opportunities and Challenges in Embedding Materials Science in Virtual Design and Manufacturing
The PRISMS-PF Open-source High-performance Framework for Phase Field Modeling and Its Use in ICME Investigations of Mg Alloys
The PRISMS Framework: An Integrated Open-source Multi-scale Capability for Accelerated Predictive Materials Science
Towards an ICME Methodology- Current Activities in Europe
Uncertainty Quantification of Machine Learning Potential
Understanding, Prediction and Design of Mesoscale Structures and Properties of Functional Materials Guided by Phase-field Simulation
Using 3D Characterization to Establish Structure Processing Relationships in Additive Manufacturing
Variant Selection of Intragranular Ni2(Mo,Cr) Precipitates in the Ni-Mo-Cr-W Alloy
Workflow Manager for High-throughput DFT Cloud Calculations


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