Engineering & Materials Science
Selective laser melting
100%
Austenitic stainless steel
75%
Microstructure
53%
Mechanical properties
51%
Tensile strength
42%
Lasers
40%
Corrosion
39%
Alloying elements
30%
Precipitates
27%
Thermal gradients
27%
Grain boundaries
26%
Microhardness
26%
Solidification
25%
Elongation
24%
Corrosion resistance
24%
Powders
21%
Temperature
21%
Scanning electron microscopy
20%
Hardness
20%
Scanning
20%
Cooling
18%
Cracks
17%
Physics & Astronomy
stainless steels
70%
melting
61%
mechanical properties
53%
microstructure
46%
lasers
34%
tensile strength
21%
corrosion
20%
substructures
11%
tensile tests
11%
corrosion resistance
11%
homogeneity
10%
microhardness
10%
elongation
10%
solidification
10%
alloying
10%
precipitates
9%
hardness
8%
cracks
8%
grain boundaries
8%
cooling
7%
gradients
7%
scanning electron microscopy
7%
scanning
7%
room temperature
6%
temperature
3%
Chemistry
Melting
68%
Microstructure
53%
Tensile Strength
33%
Corrosion
28%
Solidification
21%
Microhardness
21%
Grain Boundary
20%
Alloying
20%
Homogeneity
17%
Corrosion Resistance
17%
Cooling
17%
Alloy
13%
Strength
12%
Diffusion
12%
Scanning Electron Microscopy
11%
Environment
11%
Ambient Reaction Temperature
11%