1:05:33
Physical Metallurgy of Steels - Part 1
bhadeshia123
54:57
Physical Metallurgy of Steels - Part 2
54:47
Physical Metallurgy of Steels - Part 3
47:02
Physical Metallurgy of Steels - Part 4
51:40
Physical Metallurgy of Steels - Part 5
44:10
Physical Metallurgy of Steels - Part 6
57:26
Physical Metallurgy of Steels - Part 7
47:10
Physical Metallurgy of Steels - Part 8
52:58
Physical Metallurgy of Steels - Part 9
59:52
Physical Metallurgy of Steels - Part 10
37:44
Physical Metallurgy of Steels - Part 11
46:03
Physical Metallurgy of Steels - Part 12
56:47
Steel Technology, Ingenuity and the Future
1:33:56
Bearings and Steels
5:06
Stronger, hydrogen-resistant steel for demanding environments
16:25
Difficulties in diffusion-controlled growth theory
35:03
Future materials: a panel discussion courtesy of SKF
2:17:40
Part I: reconstructive transformations, LuleƄ tekniska universitet
1:23:42
Part II: displacive transformations lecture at LuleƄ tekniska universitet
5:43
Are Chi, eta and epsilon transition carbides relative to cementite in steels?
3:10
Collisions between martensite plates
4:50
Effect of nickel aluminide on the bainite transformation in steels
2:58
Pure iron - the phase diagram - terapascal pressures, 20000 K
1:12:01
Diffusion in steep concentration gradients and the growth of ferrite
53:23
Metal powder extrusion of advanced alloy, by Peter Kjeldsteen
43:00
Some interesting aspects of displacive transformations in steels
