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The applicability of model order reduction based on proper orthogonal decomposition to problems in dynamic thermoelasticity with multiple subdomains
D. Maxam, R. Deokar,
Kumar K Tamma
Mechanical Engineering
Research output
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Contribution to journal
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Article
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peer-review
5
Scopus citations
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Dive into the research topics of 'The applicability of model order reduction based on proper orthogonal decomposition to problems in dynamic thermoelasticity with multiple subdomains'. Together they form a unique fingerprint.
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Chemical Compounds
Thermoelasticity
100%
Flexibility
43%
Decomposition
34%
Simulation
34%
Reduction
24%
Time
19%
Physics & Astronomy
thermoelasticity
69%
decomposition
41%
thermal stresses
23%
differential equations
17%
dynamic structural analysis
13%
education
10%
flexibility
9%
finite element method
9%
methodology
8%
degrees of freedom
8%
vibration
7%
simulation
4%
Engineering & Materials Science
Thermoelasticity
77%
Decomposition
39%
Thermal stress
21%
Finite element method
13%
Structural dynamics
12%
Ordinary differential equations
11%
Hot Temperature
10%
Differential equations
9%