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Terry Alford
In this course, we will present atomic bonding and its relation to crystal structure and physical properties. A particular focus will be on the different types of cubic structures. There will be an introduction to planes and Miller Indices. We will discuss the principal planes in the cubic system. Their common crystallographic defects will be shown and discussed. Finally, the tensile test will be used to extract various materials parameters.
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Syllabus
Crystal Structures, Mechanical Properties of Metals, Tensile Testing and Failures
In this course, we will present atomic bonding and its relation to crystal structure and physical properties. A particular focus will be on the different types of cubic structures. There will be an introduction to planes and Miller Indices. We will discuss the principal planes in the cubic system. Their common crystallographic defects will be shown and discussed. Finally, the tensile test will be used to extract various materials parameters.
Read more
Syllabus
Crystal Structures, Mechanical Properties of Metals, Tensile Testing and Failures
In this course, we will present atomic bonding and its relation to crystal structure and physical properties. A particular focus will be on the different types of cubic structures. There will be an introduction to planes and Miller Indices. We will discuss the principal planes in the cubic system. Their common crystallographic defects will be shown and discussed. Finally, the tensile test will be used to extract various materials parameters.
Read more
Module 1: Crystal Structures
The semiconductor industry requires scientists and engineers with a deep understanding of materials science and engineering. In this module, we will see a high-level overview of materials science and engineering, and learn about materials selection, materials families, types of bonding, and processing of materials.
Module 2: Crystal Structures
In this module, we cover crystal structures, crystal imperfections and defects in crystals.
Module 3: Mechanical Properties
In this module, we will explore the mechanical properties of materials and discuss the tensile testing of materials.
Module 4: Mechanical Properties
In this module, you will explore mechanical properties and failure of materials.
Good to know
Good to know
Know what's good ,
what to watch for , and
possible dealbreakers
"Atomic Bonding and Crystal Structure: An Introduction to Materials Science and Engineering" is geared towards engineers and scientists working in the semiconductor industry and will help prepare for their future work
Taught by Terry Alford, course topics align with his research interests in the electronic structure of metals and alloys
Examines crystal structures, crystal imperfections, and defects in crystals, which are all highly relevant to materials science and engineering
Explores the mechanical properties of materials, a fundamental aspect of materials science and engineering
Develops core skills in tensile testing and extracting materials parameters
Provides hands-on experience in tensile testing through virtual lab simulations, which allows learners to apply concepts in a practical setting
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Activities
Be better prepared
before
your course. Deepen your understanding
during
and
after
it. Supplement your coursework and achieve mastery of the topics covered
in Crystal Structures and Properties of Metals with these
activities:
Review your knowledge of chemistry
Show steps
Review your knowledge of chemistry to refresh your memory before starting this course.
Browse courses on
Chemistry
Show steps
-
Review your notes from your previous chemistry courses.
-
Take practice problems to test your understanding of the concepts.
-
Read articles and watch videos on chemistry topics.
Review the textbook for this course
Show steps
Review the textbook for this course to familiarize yourself with the key concepts that will be covered.
View
Materials Science and Engineering: An...
on Amazon
Show steps
-
Read the preface and introduction of the textbook.
-
Identify the main topics that will be covered in the course.
-
Read the assigned chapters and take notes.
Create a compilation of resources on materials science and engineering
Show steps
Compile a list of websites, books, and other resources that you can use to supplement your learning in this course.
Show steps
-
Search for resources on the web and in libraries.
-
Organize your resources into a central location.
-
Add notes and annotations to the resources.
Six other activities
Expand to see all activities and additional details
Show all nine activities
Follow online tutorials on topics related to the course
Show steps
Follow online tutorials on topics related to the course to supplement your learning.
Show steps
-
Search for online tutorials on topics that you are interested in.
-
Follow the tutorials and take notes.
-
Apply the concepts that you have learned from the tutorials to your own work.
Participate in peer-led study groups
Show steps
Participate in peer-led study groups to discuss the course material and work on problems together.
Show steps
-
Find a study group to join.
-
Attend study group meetings regularly.
-
Participate in discussions and work on problems with other group members.
Practice solving problems related to the course material
Show steps
Practice solving problems related to the course material to improve your understanding of the concepts.
Show steps
-
Identify the problems that you need to practice.
-
Solve the problems using the methods that you have learned in class.
-
Check your answers against the solutions provided in the textbook or online.
Create a presentation on a topic related to the course
Show steps
Create a presentation on a topic related to the course to demonstrate your understanding of the material.
Browse courses on
Materials Science
Show steps
-
Choose a topic that you are interested in and that is related to the course material.
-
Research your topic and gather information from a variety of sources.
-
Create a presentation that is clear, concise, and engaging.
Start a project that applies the concepts that you have learned in this course
Show steps
Start a project that applies the concepts that you have learned in this course to a real-world problem.
Show steps
-
Identify a problem that you can solve using the concepts that you have learned in this course.
-
Develop a plan for your project.
-
Start working on your project.
Mentor other students in the course
Show steps
Help other students in the course to improve their understanding of the material.
Show steps
-
Identify students who are struggling with the material.
-
Offer to help them by answering their questions and providing guidance.
-
Create study groups or review sessions to help students prepare for exams.
Review your knowledge of chemistry
Show steps
Review your knowledge of chemistry to refresh your memory before starting this course.
Browse courses on
Chemistry
Show steps
Show steps
Show steps
- Review your notes from your previous chemistry courses.
- Take practice problems to test your understanding of the concepts.
- Read articles and watch videos on chemistry topics.
Review the textbook for this course
Show steps
Review the textbook for this course to familiarize yourself with the key concepts that will be covered.
View
Materials Science and Engineering: An...
on Amazon
Show steps
Show steps
Show steps
- Read the preface and introduction of the textbook.
- Identify the main topics that will be covered in the course.
- Read the assigned chapters and take notes.
Create a compilation of resources on materials science and engineering
Show steps
Compile a list of websites, books, and other resources that you can use to supplement your learning in this course.
Show steps
Show steps
Show steps
- Search for resources on the web and in libraries.
- Organize your resources into a central location.
- Add notes and annotations to the resources.
Six other activities
Expand to see all activities and additional details
Show all nine activities
Follow online tutorials on topics related to the course
Show steps
Follow online tutorials on topics related to the course to supplement your learning.
Show steps
Show steps
Show steps
- Search for online tutorials on topics that you are interested in.
- Follow the tutorials and take notes.
- Apply the concepts that you have learned from the tutorials to your own work.
Participate in peer-led study groups
Show steps
Participate in peer-led study groups to discuss the course material and work on problems together.
Show steps
Show steps
Show steps
- Find a study group to join.
- Attend study group meetings regularly.
- Participate in discussions and work on problems with other group members.
Practice solving problems related to the course material
Show steps
Practice solving problems related to the course material to improve your understanding of the concepts.
Show steps
Show steps
Show steps
- Identify the problems that you need to practice.
- Solve the problems using the methods that you have learned in class.
- Check your answers against the solutions provided in the textbook or online.
Create a presentation on a topic related to the course
Show steps
Create a presentation on a topic related to the course to demonstrate your understanding of the material.
Browse courses on
Materials Science
Show steps
Show steps
Show steps
- Choose a topic that you are interested in and that is related to the course material.
- Research your topic and gather information from a variety of sources.
- Create a presentation that is clear, concise, and engaging.
Start a project that applies the concepts that you have learned in this course
Show steps
Start a project that applies the concepts that you have learned in this course to a real-world problem.
Show steps
Show steps
Show steps
- Identify a problem that you can solve using the concepts that you have learned in this course.
- Develop a plan for your project.
- Start working on your project.
Mentor other students in the course
Show steps
Help other students in the course to improve their understanding of the material.
Show steps
Show steps
Show steps
- Identify students who are struggling with the material.
- Offer to help them by answering their questions and providing guidance.
- Create study groups or review sessions to help students prepare for exams.
Career center
Learners who complete Crystal Structures and Properties of Metals will develop knowledge and skills
that may be useful to these careers:
Materials Scientist
Materials Scientist
Materials Scientists study the properties of materials and how they relate to their structure. This course would be particularly relevant to a Materials Scientist because it provides a deep understanding of crystal structures and their properties. The knowledge gained from this course could help a Materials Scientist develop new materials with improved properties.
Metallurgical Engineer
Metallurgical Engineer
Metallurgical Engineers design and develop new metals and alloys. This course would be beneficial to a Metallurgical Engineer because it provides a strong foundation in the crystal structures of metals and their properties. This knowledge could help a Metallurgical Engineer develop new metals and alloys with improved properties.
Crystallographer
Crystallographer
Crystallographers study the structure and properties of crystals. This course would be beneficial to a Crystallographer because it provides a deep understanding of crystal structures and their properties. The knowledge gained from this course could help a Crystallographer develop new methods for crystal growth and characterization.
Solid State Chemist
Solid State Chemist
Solid State Chemists study the structure and properties of solids. This course would be beneficial to a Solid State Chemist because it provides a strong foundation in the crystal structures of solids and their properties. This knowledge could help a Solid State Chemist develop new solid-state materials with improved properties.
Materials Engineer
Materials Engineer
Materials Engineers design and develop new materials for a variety of applications. This course would be helpful to a Materials Engineer because it provides a broad overview of crystal structures and their properties. This knowledge could help a Materials Engineer select the right materials for a specific application.
Chemical Engineer
Chemical Engineer
Chemical Engineers design and operate chemical plants. This course may be useful to a Chemical Engineer because it provides a basic understanding of crystal structures and their properties. This knowledge could help a Chemical Engineer design and operate chemical plants more efficiently.
Ceramic Engineer
Ceramic Engineer
Ceramic Engineers design and develop ceramic materials. This course would be helpful to a Ceramic Engineer because it provides a basic understanding of crystal structures and their properties. This knowledge could help a Ceramic Engineer select the right materials for a specific application.
Glass Scientist
Glass Scientist
Glass Scientists study the structure and properties of glass. This course may be useful to a Glass Scientist because it provides a basic understanding of crystal structures and their properties. This knowledge could help a Glass Scientist develop new types of glass with improved properties.
Mechanical Engineer
Mechanical Engineer
Mechanical Engineers design and develop machines and mechanical systems. This course may be useful to a Mechanical Engineer because it provides a basic understanding of crystal structures and their properties. This knowledge could help a Mechanical Engineer design and develop machines and mechanical systems that are more efficient and durable.
Polymer Scientist
Polymer Scientist
Polymer Scientists study the structure and properties of polymers. This course may be useful to a Polymer Scientist because it provides a basic understanding of crystal structures and their properties. This knowledge could help a Polymer Scientist develop new types of polymers with improved properties.
Civil Engineer
Civil Engineer
Civil Engineers design and construct infrastructure projects. This course may be useful to a Civil Engineer because it provides a basic understanding of crystal structures and their properties. This knowledge could help a Civil Engineer design and construct infrastructure projects that are more durable and less likely to fail.
Mineralogist
Mineralogist
Mineralogists study the properties and formation of minerals. This course may be useful to a Mineralogist because it provides a basic understanding of crystal structures and their properties. This knowledge could help a Mineralogist identify and characterize different types of minerals.
Geologist
Geologist
Geologists study the Earth's structure and history. This course may be useful to a Geologist because it provides a basic understanding of crystal structures and their properties. This knowledge could help a Geologist identify and characterize different types of rocks and minerals.
Materials Physicist
Materials Physicist
Materials Physicists study the physical properties of materials. This course may be useful to a Materials Physicist because it provides a basic understanding of crystal structures and their properties. This knowledge could help a Materials Physicist understand the physical properties of materials and how they can be controlled.
Professor
Professor
Professors teach and conduct research in a particular field. This course may be useful to a Professor who teaches materials science or engineering. The knowledge gained from this course could help a Professor develop new teaching materials and research projects.
For more career information including salaries, visit:
OpenCourser.com/course/82qoak/crystal
Reading list
We've selected eight books
that we think will supplement your
learning. Use these to
develop background knowledge, enrich your coursework, and gain a
deeper understanding of the topics covered in
Crystal Structures and Properties of Metals.
Provides a comprehensive overview of the structure of materials. It valuable resource for students who want to learn more about the different types of crystal structures, diffraction techniques, and microscopy techniques.
Save
Provides a comprehensive overview of materials for biomedical applications. It valuable resource for students who want to learn more about the different types of materials used in biomedical applications and their properties.
Provides a comprehensive overview of materials science and engineering, including atomic bonding, crystal structures, and mechanical properties. It valuable resource for students who want to learn more about the fundamentals of materials science.
Provides a comprehensive overview of materials science and engineering. It valuable resource for students who want to learn more about the different types of materials and their applications.
Provides a comprehensive overview of engineering materials. It valuable resource for students who want to learn more about the different types of engineering materials and their properties.
Provides a comprehensive overview of the mechanical behavior of materials. It valuable resource for students who want to learn more about the different types of mechanical behavior and how they are measured.
Save
Provides a comprehensive overview of the deformation and fracture of engineering materials. It valuable resource for students who want to learn more about the different types of deformation and fracture and how they are characterized.
Provides a clear and concise introduction to materials science and engineering. It helpful resource for students who want to learn more about the basics of materials science and engineering.
For more information about how these books relate to this course, visit:
OpenCourser.com/course/82qoak/crystal
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Getting There and Going Beyond
Level
Introductory
Via
Coursera
Institution
Arizona State University
Instructor
Terry Alford
Language
English
This course belongs to a
collection
called
Materials Science for Technological Application. It's comprised of four courses:
- Introduction to Materials Science
- Phase Diagrams I & II
- Crystal Structures and Properties of Metals (viewing)
- Shape and Property Control of Metals I & II
Good to know
"Atomic Bonding and Crystal Structure: An Introduction to Materials Science and Engineering" is geared towards engineers and scientists working in the semiconductor industry and will help prepare for their future work
Taught by Terry Alford, course topics align with his research interests in the electronic structure of metals and alloys
Examines crystal structures, crystal imperfections, and defects in crystals, which are all highly relevant to materials science and engineering
Explores the mechanical properties of materials, a fundamental aspect of materials science and engineering
Develops core skills in tensile testing and extracting materials parameters
Provides hands-on experience in tensile testing through virtual lab simulations, which allows learners to apply concepts in a practical setting
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