Mastering Material Science in 10 hours

Exploring the Building Blocks of Innovation: A Comprehensive Journey into Materials Science
4.27 (13 reviews)
Udemy
platform
English
language
Engineering
category
instructor
Mastering Material Science in 10 hours
287
students
10 hours
content
Jan 2024
last update
$19.99
regular price

Why take this course?

🎓 Mastering Material Science in 10 Hours: Exploring the Building Blocks of Innovation

Description: Dive deep into the fascinating world of materials science and metallurgy with our comprehensive online course. This journey is designed to introduce you to the fundamentals of material science, the properties of various substances, and the transformative processes that underpin the creation and refinement of metals. You'll uncover the secrets behind crystal structures, mechanical behavior, phase transformations, and the reasons behind material failures. Additionally, you'll explore the intricate world of metallurgy, learning about alloy design, heat treatment techniques, and the processing methods that have shaped industries worldwide.

🔍 Key Highlights:

  • 📚 Explore Fundamental Concepts: Delve into the core principles of material science and metallurgy, setting a strong foundation for your understanding.
  • 🔬 Understand Material Structures: Discover how different materials are structured and what makes each one unique in terms of properties and behavior.
  • 🔥 Heat Treatment Processes: Gain insight into the various heat treatment processes that alter material strength and performance.
  • 🏭 Metallurgy Techniques: Learn about real-world metallurgy principles and techniques that are essential for innovation and development.
  • 🌍 Materials in Industry: Understand the pivotal role materials play across various industries, from aerospace to electronics.

What you will learn:

  • 🎓 Learning Outcome 1: Acquire a solid understanding of crystallography and its significance in materials science.
  • 🏗️ Learning Outcome 2: Examine the structures of metals, focusing on FCC, HCP, and BCC frameworks.
  • 🔬 Learning Outcome 3: Explore various defects in crystalline materials and their impact on material properties.
  • ⚛️ Learning Outcome 4: Understand the principles of heat treatment, including phase diagrams, to enhance material performance.
  • 💪 Learning Outcome 5: Comprehend the mechanical behavior of materials under different conditions and applications.

Course Modules:

MODULE I: Historical Development and Basic Concepts

  • Review of earlier and present development in atomic structure, primary bonds (covalent, ionic, metallic), and their properties.
  • Introduction to crystallography, including SC, BCC, FCC, HCP structures, atomic packing factors, Miller Indices, modes of plastic deformation, and crystallization effects.

MODULE II: Crystal Imperfections and Characterization Techniques

  • In-depth study of crystal imperfections, dislocations, and grain boundaries, including their roles in material strength.
  • Hands-on learning with polishing, etching, X-ray diffraction, Scanning Electron Microscopy (SEM), and Transmission Electron Microscopy (TEM).
  • Exploration of diffusion mechanisms in solids and their applications in mechanical engineering.

MODULE III: Phase Diagrams and Heat Treatment

  • Understanding the need for alloying, classification of alloys, Hume Rothery's rule, binary system equilibrium diagrams, and phase diagram interpretation.
  • Detailed discussion on the Iron-Carbon equilibrium diagram, including microstructure and properties.
  • Comprehensive coverage of heat treatment processes, such as TTT/CCT diagrams, tempering, hardenability, and the Jominy end quench test.

MODULE IV: Strengthening Mechanisms and Alloy Steel Types

  • Exploration of cold and hot working techniques and their effects on alloy steel properties.
  • Analysis of the impact of alloying elements on the properties of steels, including nickel, chromium, high-speed, cast irons, and principal nonferrous alloys.

MODULE V: Advanced Materials and Fatigue

  • Investigation into fatigue, creep, DBTT, super plasticity, and their properties and applications in various materials like composites, super alloys, intermetallics, maraging steel, and titanium.
  • Study of ceramic materials' structures and applications.

Embark on a transformative learning experience with Mastering Material Science in 10 Hours. This course is your gateway to understanding the principles behind some of the most advanced materials shaping our modern world. Whether you're a student, engineer, or enthusiast, this course will equip you with the knowledge to innovate and excel in the field of materials science and metallurgy.

Enroll now and uncover the mysteries of materials that are at the heart of technological progress! 🌟

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5682188
udemy ID
28/11/2023
course created date
30/11/2023
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