INIS
hardness
100%
cast iron
85%
precipitation
70%
particulates
70%
matrices
63%
alloys
61%
aging
60%
machining
59%
surfaces
58%
steels
53%
wear
52%
roughness
42%
tools
42%
investigations
36%
wear resistance
36%
aluminium
36%
weight
35%
powders
33%
peaks
31%
casting
30%
metals
30%
particles
30%
precipitation hardening
29%
variations
26%
microstructure
25%
tensile strength
22%
optimization
19%
ferrite
18%
processing
18%
microhardness
18%
copper
18%
bainite
16%
electric discharges
16%
nanocomposites
16%
sprays
16%
coatings
16%
layers
16%
fractures
16%
zirconium oxides
16%
silicon alloys
16%
iron
16%
clays
16%
nickel
16%
epoxides
16%
mechanical properties
16%
heat treatments
15%
depth
13%
design
13%
values
13%
age hardening
13%
Material Science
Hardness
92%
Cast Iron
85%
Reinforcement
72%
Cast
72%
Composite Material
69%
Temperature
59%
Alloy
58%
Aging of Materials
54%
Mechanical Testing
54%
Machining
44%
Reinforced Composite
42%
Dual Phase Steel
39%
Particulate Composite
32%
Age Hardening
32%
Mechanical Property
31%
Wear Resistance
29%
Metal Matrix Composite
29%
Mechanical Strength
28%
Ultimate Tensile Strength
26%
Surface Roughness
25%
Atmospheric Aerosols
24%
Casting
24%
Iron Powder
23%
Surface
21%
Machinability
21%
Copper
20%
Aluminum
19%
Ferrite
18%
Microhardness
18%
Spring Steel
17%
Manganese
16%
Al2O3
16%
Bainite
16%
Epoxy
16%
Nickel
16%
Spray Forming
16%
Silicon Alloys
16%
Zirconia
16%
Matrix Composite
16%
Nanocomposite Coating
16%
Clay
16%
Material
16%
Microstructure
15%
Experimental Design
11%
Scanning Electron Microscopy
10%
Powder
9%
Dispersion
9%
Phase Structure
8%
Nucleation
7%
Aluminum Alloys
7%
Engineering
Composite Material
32%
Nodular Iron
32%
Aluminum
28%
Microhardness
18%
Electric Discharge Machining
16%
Temperature
16%
Coating
16%
Sliding Wear
16%
Wear Resistance
16%
Impact Energy
16%
Forming
16%
Nanocomposites
16%
Silicon
14%
Hardness
14%
Alloy
8%
Metal Matrix Composite
6%
Al Alloy
6%
Design of Experiments
6%
Processing Technique
6%
Nanoclays
5%