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High-temperature creep and kinetic decomposition of Ni
2
SiO
4
J. Wolfenstine, D. L. Kohlstedt
Earth and Environmental Sciences-Twin Cities
Research output
:
Contribution to journal
›
Article
›
peer-review
11
Scopus citations
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Dive into the research topics of 'High-temperature creep and kinetic decomposition of Ni
2
SiO
4
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Chemical Compounds
Creep Rate
100%
Creep
75%
Grain Boundary Diffusion
48%
Amorphous Material
42%
Fugacity
42%
Decomposition
39%
Ductility
36%
Grain Size
28%
Flow
19%
Diffusion
19%
Pressure
17%
Dioxygen
15%
Liquid Film
14%
Earth & Environmental Sciences
creep
59%
decomposition
44%
kinetics
38%
orthosilicate
24%
deformation mechanism
17%
ductility
17%
temperature
17%
fugacity
17%
rate
15%
grain boundary
14%
silicon
14%
nickel
13%
grain size
12%
compression
12%
oxygen
10%
Engineering & Materials Science
Creep
53%
Decomposition
44%
Temperature
24%
Grain boundaries
15%
Nickel
14%
Ductility
13%
Oxygen
12%
Silicon
12%