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A finite-element hardness model for analyzing 316L stainless steel/ceramic nanocomposites
T. El-Sayed
*
, M. Imbaby,
K. Jiang
*
Corresponding author for this work
Mechanical Engineering
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Mathematics
Nanocomposites
100%
Stainless Steel
94%
Hardness
60%
Finite Element Model
51%
Inclusion
48%
Finite Element
47%
Contact
33%
Alumina
33%
Titanium
31%
Elastic Modulus
27%
Percentage
22%
Experimental Data
20%
Model
19%
Deviation
18%
Physics & Astronomy
stainless steels
53%
nanocomposites
52%
hardness
46%
ceramics
40%
inclusions
35%
tungsten carbides
18%
low concentrations
14%
titanium
12%
aluminum oxides
12%
modulus of elasticity
12%
deviation
10%
matrices
8%
Engineering & Materials Science
Nanocomposites
64%
Austenitic stainless steel
56%
Hardness
47%
Tungsten carbide
18%
Alumina
14%
Titanium
14%
Elastic moduli
12%
Chemical analysis
9%
Chemistry
Ceramic
45%
Nanocomposite
39%
Brinell Hardness
34%
Tungsten Carbide
25%