22.14 | Spring 2015 | Graduate

Materials in Nuclear Engineering

Readings

For Session 1

Allen, Todd, Jeremy Busby, et al. “Materials Challenges for Nuclear Systems.” Materials Today 13, no. 12 (2010): 14–23.

[Note from instructor: A thorough overview of the state of nuclear materials challenges in fission power reactors.]

For Session 2

Allen, Samuel, Edwin Thomas. Excerpts in Chapters 3 and 5 in The Structure of Materials. John Wiley & Sons, 1999, pp. 89–101 and 122–40. ISBN: 9780471000822.

For Session 3

Graef, Marc De. Chapters 3.3–3.5 in Structure of Materials: An Introduction to Crystallography, Diffraction and Symmetry. Cambridge University Press, 2012, pp. 56–64. ISBN: 9781139051637. [Preview with Google Books]

Crystal Maker Visualization Software

[Note from instructor: Use this to generate crystal structures from space groups.]

For Session 4

Ohring, Milton. Chapters 5.4–5.7 in Engineering Materials Science. Academic Press, 1995, pp. 206–37. ISBN: 9780125249959. [Preview with Google Books]

For Session 5

Free Energy Diagrams of Mixing:
David Dye. “5.1 | MSE104 – Thermodynamics of Solutions.” July 25, 2012. Youtube.

Generating Phase Diagram from Free Energy Curves:
David Dye. “5.2 | MSE104 – Gibbs Energy Curves.” August 1, 2012. Youtube.

For Sessions 6 and 7

Morris, Jr., J. W. “Defects in Crystals.” Chapter 4 in Materials Science and Engineering: An Introduction. Wiley, 2013, pp. 76–107. ISBN: 9781118324578.

[Note from instructor: Pay particular attention to dislocations, they are hard to wrap your mind around, and they are absolutely crucial to understanding plastic deformation.]

For Session 8

Courtney, T. H. “Dislocations.” Chapters 3 in Mechanical Behavior of Materials. McGraw–Hill Science, 1999, pp. 85–131. ISBN: 9780070285941.

[Note from instructor: You only need to understand the Figures in this reading. It is here to help reinforce topics about dislocations and their movement.]

———. “Plastic Deformation in Single and Polycrystalline Materials.” Chapters 4 in Mechanical Behavior of Materials. McGraw–Hill Science, 1999, pp. 140–52 and 156–61. ISBN: 9780070285941.

[Note from instructor: This one you should probably read in full.]

For Session 9

Excerpts from Was, G. S. Chapters 1.3 and 3 in Fundamentals of Radiation Materials Science: Metals and Alloys. Springer, 2007, pp. 44–59 and 125–52. ISBN: 9783540494713. [Preview with Google Books]

For Session 10

Excerpts from ———. Chapters 2.1 and 5.1–5.3 in Fundamentals of Radiation Materials Science: Metals and Alloys. Springer, 2007, pp. 73–85 and 191–207. ISBN: 9783540494713. [Preview with Google Books]

For Session 11

n/a

For Session 12

n/a

Additional Reading Resources

Jiang, Qing, and Zi Wen. Thermodynamics of Materials. Springer, 2011. ISBN: 9783642147173. [Preview with Google Books]

Free Energy Diagram to Phase Diagram Example (PDF)

Screw Dislocation Explained:
Patrick Shamberger. “Screw Dislocations: Texas A&M: Intro to Materials (MSEN 201).” August 27, 2014. Youtube.

Course Info

Instructor
As Taught In
Spring 2015
Level
Learning Resource Types
Exams
Lecture Notes
Problem Sets with Solutions
Written Assignments with Examples