ProgramMaster Logo
Conference Tools for MS&T22: Materials Science & Technology
Register as a New User
Submit An Abstract
Propose A Symposium
Presenter/Author Tools
Organizer/Editor Tools
About this Symposium
Meeting MS&T22: Materials Science & Technology
Symposium Multi Scale Modeling of Microstructure Deformation in Material Processing
Sponsorship AIST Metallurgy — Processing, Products & Applications Technology Committee
Organizer(s) Lukasz Madej, AGH University of Science and Technology
Jaimie S. Tiley, Oak Ridge National Laboratory
Krzysztof S. Muszka, AGH University of Science and Technology
Danuta Szeliga, AGH University of Science and Technology
Scope The recently observed rapid development of modern metallic materials (e.g., advanced high strength steels for the automotive industry, Ti- and Ni-based alloys for aerospace and nuclear applications, or multilayered, ultrafine-grained and nanostructured materials) is a stimulating factor for the development of sophisticated numerical techniques supporting and extending experimental research. These modern materials are characterized by elevated properties, which are the result of complex, often multiphase microstructures. Therefore, taking into account microstructure morphology explicitly, during numerical modeling, is particularly important.

The main goal of the symposium is the application and development of the new multi scale numerical concepts for structural mechanics to include physics-based and heuristic modeling of material response. Particular focus is on the modelling of microstructure driven deformation and complex behavior mechanisms as well as microstructure impact on the novel, sophisticated structures of metallic materials after, e.g., casting, forming, or 3D printing.
The session is a continuation of a successful mini-symposia organized during the last twelve MS&T conferences

Abstracts Due 05/15/2022

Development of the Random Cellular Automata Model of Unconstrained Grain Growth
Hardness-dependent Plasticity and Damage Initiation Within Simulated Tension-shear Testing of AHSS Resistance Spot Welds
Microstructure Based Computational Analysis of Heterogeneous Materials
Multi Scale Modeling of Elastic Properties of FeMnNiCoMo System
New Insights into the Cube Texture Development during Recrystallization of High to Medium SFE FCC Metals
PRISMS-fatigue: A General Framework for Fatigue Analysis in Polycrystalline Metals and Alloys Using the Crystal Plasticity Finite Element Method
Stochastic Model Describing Phase Transformations in Steels Accounting for a Random Character of Nucleation

Questions about ProgramMaster? Contact