This course will explore the fundamentals of material processing and how it affects the properties of materials. You will learn how to manipulate the microstructure of materials to achieve desired properties such as strength, ductility, electrical conductivity, and thermal conductivity. You will also learn how to identify and control the various processing techniques used to create materials with specific properties. This course will provide a comprehensive overview of the principles and techniques used in material processing, and will help you understand the engineering materials used in the world around you.
Mechanics of Materials I: Fundamentals of Stress & Strain and Axial Loading
2.5
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This course explores the fundamentals of stress and strain and axial loading in solid objects. Students will learn how to predict the response of engineering structures to various types of loading, and analyze the vulnerability of these structures to various failure modes. The course will focus on axial loading, and all content and materials are owned by either the Georgia Tech Research Corporation or Dr. Wayne Whiteman. By participating in the course, students agree to use the content and materials for their own personal, non-commercial use only. Any other use of the content and materials is prohibited without express written permission.
Material Behavior
1.5
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This course will explore the fundamentals of materials science, including atomic structure and bonding, crystal structure, atomic and microscopic defects, and noncrystalline materials such as glasses, rubbers, and polymers. You will learn how a material’s properties are determined by its microstructure, which is in turn determined by composition and the processing that the material has undergone. Through this course, you will gain a better understanding of the engineering materials used in the world around us and why ceramics are hard and brittle while metals tend to be ductile, why some materials conduct heat or electricity while others are insulators, and why adding just a small amount of carbon to iron results in an alloy that is so much stronger than the base metal.
Cyber-Physical Systems: Modeling and Simulation
3.0
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This course provides an introduction to the modeling and simulation of cyber-physical systems. It covers topics such as models of physical processes, finite state machines, computation, converters between physical and cyber variables, and digital networks. Students will gain an understanding of the interconnected and heterogeneous behaviors of these systems, and learn how to analyze and design them. The instructor of this course is Ricardo Sanfelice, Associate Professor in the Department of Computer Engineering at the University of California Santa Cruz.
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