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Surface engineering of austenitic stainless steel
Thomas Bell
Metallurgy and Materials
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Dive into the research topics of 'Surface engineering of austenitic stainless steel'. Together they form a unique fingerprint.
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Physics & Astronomy
austenitic stainless steels
100%
engineering
63%
corrosion
58%
alloying
56%
research and development
48%
salt baths
33%
nitriding
25%
cold plasmas
23%
food
23%
wear resistance
23%
corrosion resistance
21%
surface temperature
21%
stainless steels
19%
sectors
18%
hardness
16%
ion beams
16%
Engineering & Materials Science
Austenitic stainless steel
81%
Alloying
59%
Corrosion
38%
Wear of materials
37%
Plasmas
31%
Temperature
27%
Ion beams
24%
Fatigue of materials
23%
Nitriding
21%
Salts
15%
Wear resistance
15%
Corrosion resistance
15%
Stainless steel
14%
Hardness
13%
Chemistry
Wear
80%
Alloying
66%
Surface Temperature
56%
Corrosion
46%
Surface
27%
Plasma
26%
Ion Beam
23%
Corrosion Resistance
19%
Food
15%
Resistance
13%
Application
6%