Meeting Resources
High Entropy Alloys: Fundamentals, Alloy Design, Properties, and Computational Modeling Online Course for 2024

November 5–7, 2024

Online Course

Course Curriculum

The course will include six, half-day virtual modules, presented live, with supporting course handout materials.

Course Schedule

The schedule is in Eastern Standard Time (UTC-5:00). Use the Time Zone Converter to translate event times into your local time zone.

Day/Time
Module
Format
Tues. 9:00 a.m. – 12:00 p.m., EST
Module 1: History, Overview, and Fundamentals of HEAs
Live instruction
Tues. 1:00 p.m. – 4:00 p.m., EST
Module 2: Classes of HEAs and Alloy Design I
Live instruction
Wed. 9:00 a.m. – 12:00 p.m., EST
Module 3: Classes of HEAs and Alloy Design II
Live instruction
Wed. 1:00 p.m. – 4:00 p.m., EST
Module 4: Properties I
Live instruction
Thurs. 9:00 a.m. -12:00 p.m., EST
Module 5: Properties II 
Live instruction
Thurs. 1:00 p.m. – 4:00 p.m., EST
Module 6: Computational Modelling and Machine Learning Approaches for HEAs
Live instruction

Course Modules

Module 1: History, Overview, and Fundamentals of HEAs

Instructor: Daniel B. Miracle

This module will cover the history of HEAs and provide an overview of some key fundamental principles and definitions associated with HEAs.

Learning Objectives

  • Learn a history of HEAs
  • Gain a fundamental understanding of HEAs and their applications

Module 2: Classes of HEAs and Alloy Design I

Instructor: C. Cem Tasan

This module will consider the various classes of HEAs, including (but not limited to) refractory HEAs, 3D transition metal HEAs, HEA steels, HEA ceramics, and HEA functional materials. For the various classes of HEAs, alloy design considerations will be discussed.

Learning Objectives

  • TBA

Module 3: Classes of HEAs and Alloy Design II

Instructors: Amy Clarke, Kester Clarke, and Noah Philips

This module will consider the various classes of HEAs, including (but not limited to) refractory HEAs, 3D transition metal HEAs, HEA steels, HEA ceramics, and HEA functional materials. For the various classes of HEAs, alloy design considerations will be discussed.

Learning Objectives

  • TBA

Module 4: Properties I

Instructor: Peter Liaw and Mike Titus

This module will consider in depth the structural/mechanical properties of HEAs, including focus on properties resulting from different processing routes for producing different types of HEAs, and potential future application domains.

Learning Objectives

  • TBA

Module 5: Properties II

Instructor: Peter Liaw and Mike Titus

This module will transition from structural properties to consider the functional properties of HEAs (e.g., magnetic), and end with potential future application domains for HEAs targeted toward optimization of functional materials properties.

Learning Objectives

  • TBA

Module 6: Computational Modelling and Machine Learning Approaches for HEAs

Instructor: Taylor Sparks

This module will cover computational modeling and machine learning methods associated with predictive modeling of HEA processing, microstructures, and/or properties.

Learning Objectives

  • TBA

For More Information

For more information about this course, please contact:

TMS Meeting Services
5700 Corporate Drive Suite 750
Pittsburgh, PA 15237
Telephone:
U.S. and Canada Only: 1-800-759-4867
Other Countries: 1-724-776-9000
Fax: 1-724-776-3770