Ninth International Conference
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Keyword Contributions
316ln stainless steel #45
9% chromium-steels #34
accumulative roll bonding #35
additional hardening #9
additive manufacturing #20#41#21
ageing modelling #17
ageing temperature #17
aluminium alloy #12#17#20
aluminum-silicon cylinder head #24
artificial neural networks #1
austenitic stainless steel #61#40#31#29
az31b #54
bending fatigue #59
cahn-hilliard #25
cast aluminium alloys #19
cocrfemnni #3
constitutive model #56#32
corner-crack and cruciform specimen #48
crack closure #60
crack growth #27
crack initiation #58
crack propagation #60#59#31
crack-growth modelling #34
creep damage #60
creep-fatigue #45#34#60#52
cx12crmovnbn9-1 (c91) #52
cyclic hardening #29
cyclic material behavior #12
cyclic plasticity #32#29
damage parameter #47
damage tolerance #35
defects #20
deformation #53
ductile cast iron #47
dynamic strain aging #45
elastic plastic stress state #1
elastoplastic response #50
environment #30
extensometer #57
failure mechanisms #26
fatigue #58
fatigue behaviour #26
fatigue crack growth #48#35#30
fatigue damage #21
fatigue life #38#46
fatigue life assessment #16
fatigue life curves #52
fatigue tests #57
fem #25
fem solver #17
finite element analysis #50
fracture mechanics #30
fretting fatigue #15
hcf #40
heat resisting alloys #15
heat treatment #53
heat-affected-zone #12
high entropy alloy #3
high temperature #28#5#18#41
high temperature low cycle fatigue #56
highly strained volume #54
hot corrosion #25
hot-bent uniaxial specimen #54
hydrogen #14
interface #21
laminated metal composites #35
laminated metallic composites lmc #59
laser powder-based directed energy deposition #26
lcf #28#40#16#32#47#33
lifetime estimation #25
lifetime modeling #34#20
lost foam #24
low cycle fatigue #5#61#19#3#54#14#38#9#26#20#41#46
machine learning #1
manson coffin #52
martensitic steel #16
material modelling #16
microcrack #53
microstructure #27
microstructure evolution #38
multi-principal element alloys #38
multiaxial stress #9
neuber rule #1
nickel base alloy #30
nickel based superalloy #18#27#41
non-oriented electrical steel #58
non-proportional loading #61#9#29
notch #28#9
notch root approximation #1
oxygen diffusion #30
pitting #25
plastification at notches #12
pore accumulation #24
prandtl operator approach #50
precipiation hardening #33
real-time dic #48
replica technique #19
residual stress development #16
reversed austenite #53
semantic web #33
single crystal ni-base superalloy #60
slip marks #53
slow-fast & fast-slow tests #18
ss316l #61
stainless steel #46#21
steam turbine #52
steel #5#14
strain error #57
strain measurement #57
strain rate influence #18
strain-controlled-testing #12
stress relaxation #60
stress-strain modelling #50
superalloys #28
tailored material properties #59
tangential force #15
temperature #15
temperature fluctuation #57
test temperature #17
thermomechanical fatigue #5#45#24#19#31#27#56
thin sheet #58
three point bending #21
ti-6al-4v alloy #26
tmf/hcf #19
twinnig #54
uniform material law #47
vhcf #40
visco-plastic deformation #34
visco-plasticity #56#41
wire arc additive manufacturing #46
work rolls #5
x-ray micro computer tomography #24