10:39

Joydeep Kundu - Unsupervised learning-aided extrapolation for accelerated design of superalloys

08:14

Maryam Ghotbi - Unsupervised learning implemented by Ti3C2-MXene-based memristive neuromorphic...

09:40

Kaiji Zhao - Unsupervised machine learning via transfer learning and K-means clustering...

10:09

Darien Morphew - Combinatorial synthesis and high-throughput characterization of microstructure...

07:30

Braden Miller - Identifying structural changes with unsupervised machine learning methods

12:11

Eli Norris - Unsupervised learning-aided extrapolation for accelerated design of superalloys

18:31

High strain rate indentation response of NiCoV equi-atomic medium entropy alloy (TMS 2024)

02:21

Reconstruct and index Auto CLAHE processed datasets

02:17

Auto-CLAHE Video Tutorial by Luke Wang

02:13

Crystallographic Variant Mapping Tutorial by Marcus Hansen

11:23

5.2: TRIP steel and shape memory alloys

12:46

5.1: Martensitic transformation: characteristics, nucleation, and growth

16:03

4.3: Precipitation in alloys

10:57

4.2: TTT diagrams and phases in steels (pearlite, bainite, martensite, and more)

15:20

TMS 2021 presentation on shear banding in cp-Ti

12:19

4.1: Diffusional transformation and spinodal decomposition

13:30

3.5: Metal 3D Printing

08:28

3.4: Casting - sand casting, continuous casting, investment casting, and melt spinning

07:32

3.3: Solidification of binary systems

01:26

PED strain mapping sanity check video by Ainiu Luke Wang

02:14

PED strain mapping tutorial video by Marcus Hansen

10:20

3.2: Growth, dendrite formation, and hot cracking

14:19

3.1: Homogeneous and heterogeneous nucleations

07:44

2.3: Non-steady state diffusion

05:27

2.2: Steady-state diffusion

05:20

2.1: Introduction to diffusion

05:32

1.9: Ternary phase diagrams

07:25

1.8: Binary phase diagrams of systems with limited solubility

03:29

1.7: Phase seperation in phase diagrams

06:49

1.6: Lever rule in phase diagrams

09:54

1.5: Binary phase diagrams of systems with full solubility

09:15

1.4: Gibbs free energy of binary systems

05:20

1.3: Effect of temperature and pressure on Gibbs free energy in single-component systems

05:40

1 2: Gibbs free energy and equilibrium

04:54

6.7: Convolution and Laplace Transform

05:54

1.1: Introduction to phase transformation in metals and alloys

05:50

6.6: Short impulses and Dirac delta function

05:54

6.5: More on step function and t-shifting

03:35

6.4: Step function and t-shifting in Laplace transform

02:18

6.3: s-shifting in Laplace transform

07:40

4.4: Precipitate strengthening

05:54

6.2: Laplace transform of derivatives

06:08

4.3: Solid solution strengthening

04:19

6.1: Introduction to Laplace Transform

06:40

4.2: Strain hardening

07:25

4.1: Dislocation-grain boundary interaction (Hall-Petch relationship)

07:19

3.5: Dislocation arrays and boundaries

09:19

3.4: Dislocation nucleation and multiplication

07:37

3.3: Pierel stress and temperature/strain-rate effect

04:48

3.2: Higher-order ODEs - Nonhomogeneous

03:53

3.1: Higher-order ODEs - Homogeneous

06:35

3.2: Kinks and jogs in dislocations

08:46

3.1: Dislocation slip and dislocation climb

11:06

2.6: Second-order ODE - RLC circuits

06:35

2.6: Dislocations in other crystals

43:46

Lecture 12: Helium ion microscopy, environmental SEM, and course summary

06:47

2.5: Second-order ODE: Forced damped oscillations

06:31

2.5: Dislocations in HCP metals

54:19

Lecture 11: Focused ion beam (FIB)

04:40

2.4: Second-order OED - Euler-Cauchy Equation