2nd MecaNano Workshop on Machine Learning for Micro- and Nano-Mechanics

Introduction

Tutorial 3: CNNs for damage assessment in steels

Coffee break

Image Analysis and Computer Vision in Materials Mechanics
Machine Learning for Grain-by-Grain Multi-Phase Steel Identification using an Objective Ground Truth
Crack tracking for cyclic crack growth in tungsten fine wires
Determining the material porosity using the Python programming language

Lunch

Data Integration and Multimodal Analysis
Machine Learning Strategies for Micromechanical Phase Classification from Nanoindentation Data
Correlative Microscopy and Nanoindentation: Machine Learning Clustering Methods to Quantify Individual Constituent Properties

Advanced Combinatorial Approach to Assess Processing and Enviromental Damage in Titanium Thin Foils

Parameterising a Cahn-Hilliard Model of Plasticity: The Bayesian Pathway

Group Photo

Closing Remarks

	Thu. 04	Fri. 05
09:00 10:00 11:00 12:00 13:00 14:00 15:00 16:00 17:00 18:00 19:00 20:00 21:00 22:00 23:00	Registration 13:00 - 13:30 (30min) Registration Registration of participants Introduction 13:30 - 13:40 (10min) Introduction Introduction to the 2nd MecaNano Workshop on Machine Learning for Micro- and Nano-Mechanics. Tutorial 1: AI methods for material science 13:40 - 15:10 (1h30) Tutorial 1: AI methods for material science Fabio Gasparetti Tutorial 2: machine learning for materials characterization 15:10 - 16:40 (1h30) Tutorial 2: machine learning for materials characterization Edoardo Rossi Coffee break 16:40 - 17:00 (20min) Coffee break Machine Learning for Mechanical Characterization Advancing Nanoindentation Data Analysis towards Explainable Machine Learning and Open Science Predicting Plastic Deformation in Crystalline Materials using Acoustic Emission Machine learning-based X-ray diffraction line profile analysis for the characterization of compositional libraries of high-entropy alloys Break 17:00 - 18:40 (1h40) Machine Learning for Mechanical Characterization Péter Dusán Ispánovity 17:00 - 17:20 (20min) Advancing Nanoindentation Data Analysis towards Explainable Machine Learning and Open Science Claus Trost 17:20 - 17:40 (20min) Predicting Plastic Deformation in Crystalline Materials using Acoustic Emission Balduin Katzer 17:40 - 18:00 (20min) Machine learning-based X-ray diffraction line profile analysis for the characterization of compositional libraries of high-entropy alloys JenÅ‘ Gubicza 18:00 - 18:40 (40min) Break Materials discovery through machine learning Machine Learning-Based Prediction of Mechanical Properties for Additively Manufactured Mo-Re Alloys Characterization of the Intrinsic Stress Field of High Entropy Alloys Based on Machine Learning 18:40 - 19:20 (40min) Materials discovery through machine learning Edoardo Rossi 18:40 - 19:00 (20min) Machine Learning-Based Prediction of Mechanical Properties for Additively Manufactured Mo-Re Alloys Ömer Necati Cora 19:00 - 19:20 (20min) Characterization of the Intrinsic Stress Field of High Entropy Alloys Based on Machine Learning Péter Dusán Ispánovity Closing remarks 19:20 - 19:30 (10min) Closing remarks First day closing remarks and dinner announcements Dinner 20:00 - 23:00 (3h) Dinner	Introduction 9:00 - 9:10 (10min) Introduction Introductin to the second day of the MecaNano Workshop Tutorial 3: CNNs for damage assessment in steels 9:10 - 10:40 (1h30) Tutorial 3: CNNs for damage assessment in steels Ulrich Kerzel Coffee break 10:40 - 11:00 (20min) Coffee break Image Analysis and Computer Vision in Materials Mechanics Machine Learning for Grain-by-Grain Multi-Phase Steel Identification using an Objective Ground Truth Crack tracking for cyclic crack growth in tungsten fine wires Determining the material porosity using the Python programming language 11:00 - 12:00 (1h) Image Analysis and Computer Vision in Materials Mechanics Edoardo Rossi 11:00 - 11:20 (20min) Machine Learning for Grain-by-Grain Multi-Phase Steel Identification using an Objective Ground Truth Casper Mornout 11:20 - 11:40 (20min) Crack tracking for cyclic crack growth in tungsten fine wires Hannah Lichtenegger 11:40 - 12:00 (20min) Determining the material porosity using the Python programming language Jelena Lubura Stošić Lunch 12:00 - 14:00 (2h) Lunch Data Integration and Multimodal Analysis Machine Learning Strategies for Micromechanical Phase Classification from Nanoindentation Data Correlative Microscopy and Nanoindentation: Machine Learning Clustering Methods to Quantify Individual Constituent Properties 14:00 - 14:40 (40min) Data Integration and Multimodal Analysis Claus Trost 14:00 - 14:20 (20min) Machine Learning Strategies for Micromechanical Phase Classification from Nanoindentation Data Laia Ortiz-Membrado 14:20 - 14:40 (20min) Correlative Microscopy and Nanoindentation: Machine Learning Clustering Methods to Quantify Individual Constituent Properties Krishna Sarath Kumar Busi Advanced Combinatorial Approach to Assess Processing and Enviromental Damage in Titanium Thin Foils 14:40 - 15:00 (20min) Advanced Combinatorial Approach to Assess Processing and Enviromental Damage in Titanium Thin Foils Valerio Savo Parameterising a Cahn-Hilliard Model of Plasticity: The Bayesian Pathway 15:00 - 15:20 (20min) Parameterising a Cahn-Hilliard Model of Plasticity: The Bayesian Pathway Amit Chattopadhyay Group Photo 15:20 - 15:40 (20min) Group Photo Closing Remarks 15:40 - 16:00 (20min) Closing Remarks Event closing remarks