Key Features
• Up-to-date and complete (including EPMA and RBS investigations)
• Indication of reliability of the measurements
• Reassessment of many early results
• Data can easily be extracted from Tables and Graphs
Readership
Scientists working in the field of metallurgy as well as material design engineers and materials specifiers.
Self-diffusion and Impurity Diffusion in Pure Metals, 1st Edition
0 Introduction
0.1 Experimental techniques
0.1.1 Radio tracer techniques
0.1.2 Non-radioactive methods
0.1.3 Interdiffusion
0.1.4 Comparison of the experimental methods
0.2 Interpretation of the diffusion investigations
0.3 Instructions for the use of Tables
List of abbreviations
1 Self-diffusion and impurity diffusion in group I metals
1.1 Lithium
1.2 Sodium
1.3 Potassium
1.4 Copper
1.5 Silver
1.6 Gold
2 Self-diffusion and impurity diffusion in group II metals
2.1 Beryllium
2.2 Magnesium
2.3 Calcium
2.4 Zinc
2.5 Cadmium
3 Self-diffusion and impurity diffusion in group III metals
3.1 Scandium
3.2 Yttrium
3.3 Lanthanium
3.4 Aluminum
3.5 Indium
3.6 Thallium
4 Self-diffusion and impurity diffusion in group IV metals
4.1 Titanium
4.2 Zirconium
4.3 Hafnium
4.4 Tin
4.5 Lead
5 Self-diffusion and impurity diffusion in group V metals
5.1 Vanadium
5.2 Niobium
5.3 Tantalum
5.4 Antimony
6 Self-diffusion and impurity diffusion in group VI metals
6.1 Chromium
6.2 Molybdenum
6.3 Tungsten
7 Diffusion in group VII metals
Manganese, rhenium
8 Self-diffusion and impurity diffusion in group VIII metals
8.1 Iron
8.2 Cobalt
8.3 Iridium
8.4 Nickel
8.5 Palladium
8.6 Platinum
9 Self-diffusion and impurity diffusion in rare earth metals
9.1 Cerium
9.2 Praseodymium
9.3 Neodymium, europium, gadolinium, erbium, ytterbium
10 Self-diffusion and impurity diffusion in actinide metals
10.1 Thorium
10.2 Uranium
10.3 Plutonium
