UCSBPlat . ME 280

An in-depth look into the many classes of defects (e.g., point, linear, and planar) and the role they play in crystalline materials. While we cannot eliminate defects and they are usually seen as a weakness, proper understanding of defects is the best way to design stronger and better materials. Examples of the types of defects we may cover are vacancies, dislocations, grain boundaries, interfaces, and twins. We will study their formation, mobility and interaction in environments where they are commonly found, such as elevated temperatures, mechanical strains, or irradiation.

+ Add to schedule

Prerequisites: ME 219

Units

Letter

Grading

1, 2, 3

Passtime

None

Level Limit

Engineering

College

These majors only me

BEYERLEIN I J

No info found

ME 246

4 / 15 Enrolled

Molecular and Cellular Biomechanics

Megan Valentine 3.0

T R

14:00 PM - 15:15 PM

85.7% A

ME 258

2 / 5 Enrolled

Methods in Mechanobiology and Biofabrication

Pruitt B

M W

14:00 PM - 15:15 PM

100.0% A

ME 267

3 / 10 Enrolled

Thin Films and Multilayers

Matthew Begley 5.0

M W

09:30 AM - 10:45 AM

ME 275

6 / 10 Enrolled

Fracture Mechanics

Robert McMeeking 3.5

T R

12:30 PM - 13:45 PM

97.6% A

ME 292

7 / 15 Enrolled

Design of Transducers

Sumita Pennathur 4.1

T R

15:30 PM - 16:45 PM

89.1% A

ME 295

4 / 10 Enrolled

Group Studies: Controls, Dynamical Systems, and Computation

Andrew Teel 4.3

14:30 PM - 16:50 PM

Crystalline Defects . ME 280

Prerequisites: ME 219

These majors only me

Instructors

BEYERLEIN I J

Lecture

Enrollment Trends

Past Enrollment Trends (1)

You Might Also Like