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Meeting 2017 TMS Annual Meeting & Exhibition
Symposium ICME Gap Analysis: Structural Materials for Automotive Applications
Presentation Title Integrated Computational Materials Engineering for Automotive Light Metals
On-Site Speaker (Planned)
Abstract Scope Advanced light metals (aluminum, magnesium and titanium alloys) are increasingly being used in the automotive industry for weight reduction and structural efficiency. Integrated Computational Materials Engineering (ICME) is defined as the integration of materials information, captured in computational tools, with engineering product performance analysis and manufacturing-process simulation. ICME involves development of unified materials models which integrate information across length and time scales and across knowledge domains and enables integration of simulations of manufacturing, design and materials into a holistic system. ICME offers a solution to quickly develop engineering products at the lowest possible mass/costs. This talk will highlight some of the progress made and identify gaps in using ICME tools to develop light alloys, manufacturing processes and components for automotive structural applications.
Proceedings Inclusion? Undecided


An Assessment of Modeling Tools for High Temperature Aluminum Alloy Development: The Good, the Bad and the Ugly
Bridging the Gap between ICME Design and Implementation of Third Generation Advanced High Strength Steels for Automotive Applications
Case Studies and Gap Analyses in ICME for Structural Materials in Automotive Applications
ICME for Automotive Composites – Development of Predictive Integrated Stochastic Manufacturing and Structural Performance Models
ICME Model Development and Gap Analysis for Advanced Cast Aluminum and Magnesium Alloys for Automotive Applications
Integrated Computational Materials Engineering for Automotive Light Metals
Limitation of the ICME Approach for Mg Alloy Production via Twin Roll Casting Process
Progress and Gaps in Thermodynamic Modeling for the Development of Advanced Cast Aluminum Alloys using Integrated Computational Materials Engineering
The Phase Field Method and Materials Design

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