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Fatigue mechanics of carbide composites (title)
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journal article
Fatigue mechanics of carbide composites
Sergejev, Fjodor
;
Klaasen, Heinrich
;
Kübarsepp, Jakob
;
Preis, Irina
International journal of materials & product technology
2011
/
p. 140-163 : ill
journal article
Number of records 1, displaying
1 - 1
keyword
110
1.
carbide composites
2.
duplex oxide–carbide composites
3.
B. fatigue
4.
coating fatigue
5.
concrete fatigue
6.
fatigue
7.
fatigue assessment
8.
fatigue crack growth
9.
fatigue crack growth rate
10.
fatigue properties
11.
fatigue testing
12.
fatigue time
13.
high cycle fatigue
14.
high temperature fatigue
15.
indentational surface fatigue
16.
on-the-job fatigue
17.
physical fatigue
18.
rolling contact fatigue (RCF)
19.
surface fatigue
20.
surface fatigue wear
21.
boron carbide
22.
carbide
23.
carbide composite
24.
carbide inserts
25.
carbide reinforcement
26.
carbide solid solutions
27.
carbide tool steels
28.
carbide-derived carbon
29.
Cemented Carbide
30.
cemented tungsten carbide-cobalt
31.
chromium carbide
32.
chromium carbide-based cermets
33.
high-entropy carbide
34.
molybdenum carbide
35.
nano-silicon carbide
36.
recycling carbide
37.
silicon carbide
38.
silicon carbide (SiC)
39.
silicon carbide JBS diodes
40.
zirconium carbide
41.
titanium carbide
42.
titanium carbide-based cermets
43.
tungsten and titanium carbide
44.
tungsten carbide
45.
analytical mechanics of cellular automata
46.
computational mechanics and design
47.
continuum mechanics
48.
fluid mechanics
49.
fracture mechanics
50.
general fluid mechanics
51.
generalized solid mechanics
52.
internal mechanics
53.
Magneto-mechanics
54.
mechanics
55.
mechanics of materials
56.
non-classical mechanics
57.
nonholonomic mechanics
58.
soil mechanics
59.
solid mechanics
60.
stochastic mechanics
61.
structural mechanics and foundation
62.
turbulence mechanics
63.
wave mechanics
64.
Al-based composites
65.
aluminum matrix composites
66.
aluminum matrix composites(ZrC+TiC) ceramic reinforcements
67.
bimaterial composites
68.
cementitious composites
69.
cementitious refractory composites
70.
ceramic composites
71.
ceramic metal composites
72.
CNT doped composites
73.
CoCrFeMnNi composites
74.
composites
75.
Cu-composites
76.
fiber reinforced composites
77.
fiber-reinforced composites
78.
fiber-reinforced composites and injection molding
79.
fire-retardant fiber-reinforced composites
80.
glass-fiber reinforced composites
81.
hemp fiber composites
82.
interpenetrating phase composites
83.
light-weight composites
84.
light-weight superhard composites
85.
lignin-pla composites
86.
metal matrix composites
87.
metal matrix composites (MMCs)
88.
metallic composites
89.
metal-matrix composites
90.
metal-metal interpenetrating phase composites
91.
MWCNTs/Al–Mg–Sc–Zr composites
92.
nano-composites
93.
N-Composites isolated points
94.
Ni-W composites
95.
particle reinforced composites
96.
particulate composites
97.
polymer composites
98.
polymer matrix composites
99.
powder composites
100.
strain hardening cementitious composites (SHCC)
101.
Zirconia composites
102.
ZrC-based composites
103.
TiB2/Ti composites
104.
TiC/AZ91D composites
105.
TiC/Ti-alloy composites
106.
TiC/TiN Composites
107.
titanium matrix composites
108.
WC-based composites
109.
wood-plastic composites
110.
Y123/ BaCuO2 composites
subject term
1
1.
Hanza Mechanics Narva AS
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