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Creep analysis of a main steam pipe system
J. Storesund
*
, D. Andersson
, J. Rantala
, H. Andersson Östling
, F. Sorsh
*
Corresponding author for this work
BA5207 Thermal liquefaction and upgrading
Kiwa Technical Consulting AB
Swerim AB
Research output
:
Contribution to journal
›
Article
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Scientific
›
peer-review
3
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Keyphrases
Strain Distribution
100%
Creep Strain
100%
Pipe System
100%
Creep Analysis
100%
Creep Damage
100%
Main Steam pipe
100%
Creep
80%
Stress Distribution
80%
Service Exposed
60%
Primary Creep
60%
Pipe Weld
60%
Creep Testing
40%
T-piece
40%
ABAQUS
40%
Damage Distribution
40%
Creep Stress
40%
Creep Crack
40%
Creep Law
40%
Norton
40%
Low Stress
20%
Sweden
20%
Numerical Analysis
20%
Weld Metal
20%
Creep Behavior
20%
Base Metals
20%
Long-term Creep Behavior
20%
Creep Test
20%
Creep Data
20%
Steam pipe
20%
High Strain
20%
Crack Formation
20%
Local Constraints
20%
Service Conditions
20%
Multiaxiality
20%
Strain Level
20%
System Analysis
20%
Uniaxial Creep
20%
Creep Ductility
20%
Creep Cavitation
20%
Maximum Principal Stress
20%
Von Mises Stress
20%
Maximum Strain
20%
Damage Development
20%
Enhanced Strain
20%
Welded Components
20%
Damage Level
20%
Stress Criterion
20%
INIS
steam
100%
pipes
100%
creep
100%
welds
40%
strains
37%
distribution
21%
damage
21%
testing
12%
simulation
9%
comparative evaluations
9%
levels
9%
replicas
6%
values
3%
data
3%
constraints
3%
metals
3%
evaluation
3%
sweden
3%
cracks
3%
maps
3%
numerical analysis
3%
verification
3%
ductility
3%
crack propagation
3%
cavitation
3%
systems analysis
3%
Engineering
Pipe System
100%
Creep
100%
Welds
65%
Creep Strain
15%
Primary Creep
15%
Abaqus
10%
Creep Testing
10%
Law Creep
10%
Model System
5%
Creep Data
5%
Service Condition
5%
Cogeneration Combined Cooling Heating Power
5%
Enhanced Strain
5%
Strain Level
5%
Reanalysis
5%
Maximum Principal Stress
5%
Damage Level
5%
Damage Development
5%
Crack Formation
5%
Systems Analysis
5%
Creep Test
5%
Material Science
Creep
100%
Primary Creep
11%
Creep Property
7%
Weld Metal
3%
Crack Formation
3%