FADOFF
Fatigue Analysis Documentation OFFice
Login
Register
About
FADOFF
Library
Materials
FinLiv
Experts
Labs
Contracts
News
PragTic
Terms of use
Menu
Selector
News
Demo version of FKM_LFSA extended
2014-02-03 09:32:14
Invitation to VAL 2015 conference
2014-01-17 21:55:59
Demo of FKM solution on-line
2014-01-08 21:52:52
Import from pragtic.com started
2014-01-08 19:57:32
Reference selector
ID:
Title:
Authors:
Keywords:
Year:
2019
2018
2017
2016
2015
2014
2013
2012
2011
2010
2009
2008
2007
2006
2005
2004
2003
2002
2001
2000
1999
1998
1997
1996
1995
1994
1993
1992
1991
1990
1989
1988
1987
1986
1985
1984
1983
1982
1981
1980
1979
1978
1977
1976
1975
1974
1973
1972
1971
1970
1969
1968
1967
1966
1965
1964
1963
1962
1961
1960
1959
1958
1957
1956
1955
1954
1953
1952
1951
1950
1949
1948
1947
1946
1945
1944
1943
1942
1941
1940
1939
1938
1937
1936
1935
1934
1933
1932
1931
1930
1929
1928
1927
1926
1925
1924
1923
1922
1921
1920
1919
1918
1917
1916
1915
1914
1913
1912
1911
1910
1909
1908
1907
1906
1905
1904
1903
1902
1901
1900
1899
1898
1897
1896
1895
1894
1893
1892
1891
1890
1889
1888
1887
1886
1885
1884
1883
1882
1881
1880
1879
1878
1877
1876
1875
1874
1873
1872
1871
1870
1869
1868
1867
1866
1865
1864
1863
1862
1861
1860
1859
1858
1857
1856
1855
1854
1853
1852
1851
Magazine:
22
Acta Materialia
Advanced Engineering Materials
Aluminium
Annals of Faculty Engineering Hunedoara – International Journal Of Engineering
Archiv für das Eisenhüttenwesen
Bull JSME
Bulletin of Applied Mechanics
Comptes Rendus Mécanique
Computational Materials Science
Computers & Structures
Draht
Engineering
Engineering Failure Analysis
Engineering Fracture Mechanics
Engineering Mechanics
European Journal of Mechanics - A/Solids
Experimental Mechanics
Experimental Techniques
Facta Universitatis
Fatigue & Fracture of Engineering Materials & Structures
Fatigue of Engineering Materials and Structures
Fracture and Structural Integrity
Giessereiforschung
Industrieanzeiger
International Journal for Numerical Methods in Engineering
International Journal of Damage Mechanics
International Journal of Fatigue
International Journal of Mechanical Sciences
International Journal of Plasticity
International Journal of Pressure Vessels and Piping
International Journal of Solids and Structures
Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik
Journal of Applied Mechanics
Journal of Engineering Materials and Technology
Journal of Engineering Mechanics
Journal of Materials
Journal of Materials Engineering and Performance
Journal of Mechanical Design
Journal of Mechanical Engineering Science
Journal of Nuclear Materials
Journal of Testing and Evaluation
Journal of the Iron and Steel Institute
Journal of the Mechanics and Physics of Solids
Journal of the Society of Mechanical Engineers
Journal of Theoretical and Applied Mechanics
Key Engineering Materials
Konstruktion
Kunststoffe
Luftwissen
Maschinenbautechnik
Material und Technik
Materialprüfung (Material Testing)
Materials & Design
Materials Science
Materials Science and Engineering
Materials Science and Engineering: A
Materialwissenschaft und Werkstofftechnik
Mechanics Research Communications
Mem. College Engng., Kyoto Imperial University
Metall Journal
Metallurgical and Materials Transactions B
Mitteilungen aus dem Kaiser-Wilhelm-Institut für Eisenforschung zu Düsseldorf, Verl. Stahleisen
Neue Hütte. Zeitschrift für das Berg- und Hüttenwesen
Nuclear Engineering and Design
Probabilistic Engineering Mechanics
Procedia Engineering
Proceedings of the Institution of Mechanical Engineers
Proceedings of the Royal Society A
Sci. Techniq. l'Armement
Schiff & Hafen
Schweisstechnik / Soudure
Stahl und Eisen
Steel Construction
Strain
Strength of Materials
Technik
Technische Rundschau
The Aeronautical Quarterly
The Welding Journal
Theoretical and Applied Fracture Mechanics
Transactions of ASME
Transactions of the American Society for Metals
Tribology International
Veröffentlichungen des Instituts für Stahlbau and Werkstoffmechanik der Technischen Hochschule Darmstadt
Wear
Welding in the World
Z. Werkstofftechnik
Zeitschrift des Vereines Deutscher Ingenieure
Proceedings:
21ème Congrès Français de Mécanique
Advances in Fatigue Lifetime Predictive Techniques, ASTM STP 1122
Applied Mechanics and Materials - Applied Methods of the Analysis of Static and Dynamic Loads of Structures and Machines
Associazione Italiana per la Analisi delle Sollecitazioni a XXXIV Convegno Nazionale
Basic Questions in Fatigue, ASTM STP 924
Cyclic Stress-Strain and Plastic Deformation Aspects of Fatigue Crack Growth, ASTM STP 637
Effects of Environment and Complex Load History on Fatigue Life, ASTM STP 462
Fatigue '87 - The Third International Conference on Fatigue and Fatigue Thresholds
Fatigue 2004: Second SAE Brasil International Conference on Fatigue
Fatigue thresholds: fundamentals and engineering applications : the proceedings of an international conference held in Stockholm
Fatigue Under Biaxial and Multiaxial Loading, ESIS 10
Fatigue under Complex Loading
Low-Cycle Fatigue and Life Prediction, ASTM STP 770
Metal 2006 Conference Proceedings
METAL 2011 Conference Proceedings
Multiaxial Fatigue - Analysis and Experiments. AE-14
Multiaxial Fatigue, ASTM STP 853
Proc. from the 6th Low Cycle Fatigue Conference
Proc. Int. Conf. on Fatigue of Metals
Proc. of 6th International Conference on Biaxial/Multiaxial Fatigue and Fracture
Proc. of ICSP-9 Conference
Proceeding of International Symposium of Tubular Structures (ISTS'11)
Proceeding of the Institution of Mechanical Engineers
Proceedings from the 2nd Conference on Variable Amplitude Loading, Vol. I
Proceedings from the 2nd Conference on Variable Amplitude Loading, Vol. II
Proceedings International Conference on Fatigue of Metals
Proceedings of Fatigue 2006 Conference
Proceedings of the American Society for Testing and Materials (ASTM)
Proceedings of the ECF 15 - Advanced Fracture Mechanics for Life and Safety Assessments
Proceedings of the Eigth International Fatigue Congress
Proceedings of the Institution of Automobile Engineers
Proceedings of the Seventh International Congress for Applied Mechanics
Proceedings of XIIIth Youth Symposium on Experimental Solid Mechanics
Report or the eighty-fifth meeting of the British Association for the advancement of science
TRANSCOM 2011 - 9-th European Conference of Young Research and Scientific Workers, Section 5 - Material Engineering, Mechanical Engineering Technologies
Topics:
composite fatigue
contact fatigue
cycle counting methods
cyclic plasticity
environmental influence
fatigue crack growth
fatigue damage accumulation
fatigue design
fatigue testing
giga-cycle fatigue
multiaxial fatigue
notches
probabilistic analysis
random loading
residual stress
riveting
spectral solution
thermo-mechanical fatigue
thermo-mechanical treatment
welds
You can specify additional topicals for references which match the current criteria (if available).
Topical 1:
A special apparatus described?
A special methodology described?
Calibration procedure described
Computation models
Concerns issues on evaluation of the results?
Contact geometry
Contains algorithms
Damage cumulative rule
Description of used algorithms
Domain
Experiment - bonded, putty,
Experiment - damage modes interaction
Experiment - joint configuration
Experiment - load complexity
Experiment - load interactions
Experiment - load modes
Experiment - multiaxial load
Experiment - rivet type
Experiment - typical number of rivets in the joint
Fatigue solution
Fatigue solution
Fatigue solution
Fatigue solution
Full elastic-plastic solution?
Hardening rule
How the local stress-strain fields were acquired?
Involves cycle counting?
Involves environmental effect?
Involves thermal effects?
Involves welds?
Irradiation involved
Load complexity
Load complexity
Load complexity
Load complexity
Load properties
Main focus
Methods verified
Model proposed
Model proposed
New method proposed
Notch effect
Notch effect models
Parameters of the notch evaluation method derived from
Periodical loading
Periodical loading
Prediction proposals?
Processing of PSD
Residual stresses are induced by
Residual stresses measured by
Shear stress decomposing
Solution - damage modes interaction
Solution approach
Solution approach
Solution type
Solution type
Solution used
Solution used
Special surface layers involved?
Tensor reduction
Type of contact damage
Type of material
Type of residual stresses
Type of solution
Type of solution
Type of solution
Type of the environment
Type of the environment
Type of treatment
Which part of the constitutive model was improved?
Yield condition
scale
technology
type of welds
Value 1:
A special apparatus described? - void if not, otherwise describe the target area
A special methodology described? - void if not, otherwise describe the target area
Calibration procedure described - no
Calibration procedure described - yes
Computation models - searchable list of methods
Concerns issues on evaluation of the results? - void if not, otherwise describe the target area
Contact geometry - line
Contact geometry - multi-point
Contact geometry - not distinguished
Contact geometry - point
Contains algorithms - info on the algorithm provided to comments
Contains algorithms - no
Damage cumulative rule - Corten-Dolan
Damage cumulative rule - Palmgren-Miner
Damage cumulative rule - Serensen-Kogaev
Damage cumulative rule - no solution
Damage cumulative rule - other type (commentary)
Description of used algorithms - description of the provided algorithms otherwise
Description of used algorithms - void if not given
Domain - aircraft industry
Domain - automotive
Domain - electronic applications
Domain - energy applications
Domain - marine industry
Domain - no preference
Domain - railway industry
Domain - space applications
Experiment - bonded, putty, - no
Experiment - bonded, putty, - yes
Experiment - damage modes interaction - creep damage
Experiment - damage modes interaction - mechanical loading
Experiment - damage modes interaction - no experiment
Experiment - damage modes interaction - oxidation
Experiment - joint configuration - butt joint - double strap
Experiment - joint configuration - butt joint - single strap
Experiment - joint configuration - lap joint
Experiment - joint configuration - no experiment
Experiment - load complexity - constant amplitude loading
Experiment - load complexity - no experiment
Experiment - load complexity - periodical block loading
Experiment - load complexity - random loading
Experiment - load complexity - small cycles superposed on large cycles
Experiment - load interactions - general combination
Experiment - load interactions - in-phase loading
Experiment - load interactions - isothermal loading
Experiment - load interactions - no experiment
Experiment - load interactions - out-of-phase loading
Experiment - load modes - no experiment
Experiment - load modes - other mode (commentary)
Experiment - load modes - plane bending
Experiment - load modes - push-pull
Experiment - load modes - rotating bending
Experiment - load modes - rotating bending
Experiment - multiaxial load - no
Experiment - multiaxial load - yes
Experiment - rivet type - blind rivets
Experiment - rivet type - countersunk rivets
Experiment - rivet type - dimpled rivets
Experiment - rivet type - no experiment
Experiment - rivet type - other type (commentary)
Experiment - rivet type - rivets with compensators
Experiment - rivet type - rivets with mushroom head
Experiment - typical number of rivets in the joint - more-rivet joints
Experiment - typical number of rivets in the joint - no experiment
Experiment - typical number of rivets in the joint - riveted panel
Experiment - typical number of rivets in the joint - riveted unit
Experiment - typical number of rivets in the joint - single-rivet joints
Experiment - typical number of rivets in the joint - two-rivet joints
Fatigue solution - searchable list of damage parameters used
Fatigue solution - searchable list of damage parameters used
Fatigue solution - searchable list of damage parameters used
Fatigue solution - searchable list of fatigue damage calculation methods used
Full elastic-plastic solution? - no for ex-post conversion to e-p from elastic solution
Full elastic-plastic solution? - yes for e-p solution
Hardening rule - kinematic
Hardening rule - mixed
Hardening rule - no
Hardening rule - other
How the local stress-strain fields were acquired? - BEM
How the local stress-strain fields were acquired? - FEM
How the local stress-strain fields were acquired? - Neuber method and similar solutions
How the local stress-strain fields were acquired? - based on the notch radius and stress intensity factor
How the local stress-strain fields were acquired? - not set
How the local stress-strain fields were acquired? - pseudostrain
How the local stress-strain fields were acquired? - pseudostress
Involves cycle counting? - no if the damage is integrated over whole load path
Involves cycle counting? - yes if the cycle-counting is involved
Involves environmental effect? - no
Involves environmental effect? - yes
Involves thermal effects? - no
Involves thermal effects? - yes
Involves welds? - no
Involves welds? - yes
Irradiation involved - no
Irradiation involved - yes
Load complexity - block loading
Load complexity - block loading
Load complexity - block loading
Load complexity - broad-band loading
Load complexity - harmonic loading
Load complexity - harmonic loading
Load complexity - harmonic loading
Load complexity - high- and low-stress cycles interaction
Load complexity - high- and low-stress cycles interaction
Load complexity - high- and low-stress cycles interaction
Load complexity - iso-frequency loading on different channels
Load complexity - iso-frequency loading on different channels
Load complexity - iso-frequency loading on different channels
Load complexity - narrow-band loading
Load complexity - no experiments
Load complexity - no experiments
Load complexity - no experiments
Load complexity - no experiments
Load complexity - non-Gaussian loading
Load complexity - periodical loading
Load complexity - periodical loading
Load complexity - periodical loading
Load complexity - randomized loading
Load complexity - randomized loading
Load complexity - randomized loading
Load complexity - substantial mean stress effect
Load complexity - substantial mean stress effect
Load complexity - substantial mean stress effect
Load complexity - white noise
Load properties - Gaussian loading
Load properties - broad-band loading
Load properties - narrow-band loading
Load properties - non-Gaussian loading
Load properties - not specified
Main focus - crack growth
Main focus - crack initiation
Main focus - endurance limit estimation
Main focus - residual stresses relaxation
Methods verified - more substantial verification
Methods verified - no
Methods verified - only basic verification (1-2 notch types)
Methods verified - very well verified (more than 4 notch types)
Model proposed - analysis in deviatoric space
Model proposed - critical plane (CPD formulation)
Model proposed - critical plane (max. SSR)
Model proposed - critical plane (max. damage)
Model proposed - endochronic
Model proposed - integral criterion (in parts)
Model proposed - integral criterion (whole DP)
Model proposed - micromechanical
Model proposed - multisurface
Model proposed - no
Model proposed - no
Model proposed - other (described in comments)
Model proposed - other type
Model proposed - overlay
Model proposed - single yield surface
Model proposed - two-surface model
New method proposed - no
New method proposed - proposed
New method proposed - validated extensively
New method proposed - validated on a small set (<100 data)
Notch effect - critical area
Notch effect - critical distance
Notch effect - critical length
Notch effect - critical volume
Notch effect - no
Notch effect - other (described in the comments)
Notch effect - stress gradient
Notch effect models - critical area
Notch effect models - critical distance
Notch effect models - critical length
Notch effect models - critical volume
Notch effect models - no
Notch effect models - other (described in the comments)
Notch effect models - stress gradient
Parameters of the notch evaluation method derived from - from common fatigue material parameters
Parameters of the notch evaluation method derived from - from common fracture mechanics material parameters
Parameters of the notch evaluation method derived from - from other special experiments (specify in comments)
Parameters of the notch evaluation method derived from - no special parameters
Periodical loading - in parts
Periodical loading - no
Periodical loading - no
Periodical loading - only
Periodical loading - only
Periodical loading - parts
Periodical loading - prevalent
Periodical loading - prevalent
Prediction proposals? - no
Prediction proposals? - yes
Processing of PSD - conversion to probability density function
Processing of PSD - direct damage calculation
Processing of PSD - not specified
Processing of PSD - other solution (commentary)
Residual stresses are induced by - cold expansion of holes
Residual stresses are induced by - laser shock peening
Residual stresses are induced by - low plasticity burnishing
Residual stresses are induced by - machining
Residual stresses are induced by - other
Residual stresses are induced by - press-fitting
Residual stresses are induced by - shot-peening
Residual stresses are induced by - tensile pre-straining
Residual stresses measured by - Barkhausen noise
Residual stresses measured by - X-ray diffraction
Residual stresses measured by - eddy current
Residual stresses measured by - hole-drilling method
Residual stresses measured by - neutron diffraction
Residual stresses measured by - ultrasonic
Shear stress decomposing - longest chord method
Shear stress decomposing - longest projection method
Shear stress decomposing - maximum rectangular prismatic hull
Shear stress decomposing - minimum circumscribed circle method
Shear stress decomposing - minimum circumscribed ellipse/ellipsoid method
Shear stress decomposing - minimum circumscribed hull
Shear stress decomposing - no
Shear stress decomposing - other (described in comments)
Solution - damage modes interaction - creep damage
Solution - damage modes interaction - mechanical loading
Solution - damage modes interaction - no solution
Solution - damage modes interaction - oxidation
Solution approach - description of the prediction method if any
Solution approach - local force-based solution
Solution approach - local strain-based solution
Solution approach - local stress-based solution
Solution approach - no solution
Solution approach - nominal solution
Solution approach - other type (commentary)
Solution type - cycle-by-cycle
Solution type - load path integration
Solution type - load path integration
Solution type - no solution
Solution type - no solution
Solution type - other solution
Solution type - rain-flow
Solution type - rain-flow matrix
Solution type - range pair counting
Solution type - spectral solution
Solution type - spectral solution
Solution used - otherwise description of the solution used
Solution used - otherwise description of the solution used
Solution used - void if not provided
Solution used - void if not provided
Special surface layers involved? - void if not, otherwise description
Tensor reduction - Tresca
Tensor reduction - multiaxial solution
Tensor reduction - no solution
Tensor reduction - other type (commentary)
Tensor reduction - principal stress
Tensor reduction - von Mises
Type of contact damage - fretting
Type of contact damage - not distinguished
Type of contact damage - pitting
Type of contact damage - rolling contact fatigue
Type of contact damage - wear
Type of material - searchable list of composite configuration
Type of residual stresses - both
Type of residual stresses - microstresses
Type of residual stresses - not defined, macrostresses
Type of solution - a list of evaluated solutions otherwise
Type of solution - searchable list of solution methods
Type of solution - searchable list of solution methods
Type of solution - void if not provided
Type of the environment - air
Type of the environment - dry
Type of the environment - dry/wet
Type of the environment - not distinguished
Type of the environment - not distinguished
Type of the environment - other
Type of the environment - salt water
Type of the environment - vacuum
Type of the environment - vapour
Type of the environment - water
Type of the environment - wet
Type of treatment - anodizing
Type of treatment - autofrettage
Type of treatment - carbonitriding
Type of treatment - carburizing
Type of treatment - cyaniding
Type of treatment - nitriding
Type of treatment - nitrocarburizing
Type of treatment - plasma-spraying
Type of treatment - shot peening
Type of treatment - thermal
Which part of the constitutive model was improved? - cyclic hardening
Which part of the constitutive model was improved? - cyclic softening
Which part of the constitutive model was improved? - no
Which part of the constitutive model was improved? - non-proportional hardening
Which part of the constitutive model was improved? - ratcheting
Which part of the constitutive model was improved? - variable amplitude loading
Yield condition - Hills
Yield condition - distortion
Yield condition - not defined
Yield condition - other type
Yield condition - von Mises
scale - a couple of welds evaluated (<=5)
scale - one particular weld evaluated
scale - whole structure with more welds evaluated
technology - additive welding
technology - friction stir welding
type of welds - seam welds
type of welds - spot welds
Input1:
Topical 2:
A special apparatus described?
A special methodology described?
Calibration procedure described
Computation models
Concerns issues on evaluation of the results?
Contact geometry
Contains algorithms
Damage cumulative rule
Description of used algorithms
Domain
Experiment - bonded, putty,
Experiment - damage modes interaction
Experiment - joint configuration
Experiment - load complexity
Experiment - load interactions
Experiment - load modes
Experiment - multiaxial load
Experiment - rivet type
Experiment - typical number of rivets in the joint
Fatigue solution
Fatigue solution
Fatigue solution
Fatigue solution
Full elastic-plastic solution?
Hardening rule
How the local stress-strain fields were acquired?
Involves cycle counting?
Involves environmental effect?
Involves thermal effects?
Involves welds?
Irradiation involved
Load complexity
Load complexity
Load complexity
Load complexity
Load properties
Main focus
Methods verified
Model proposed
Model proposed
New method proposed
Notch effect
Notch effect models
Parameters of the notch evaluation method derived from
Periodical loading
Periodical loading
Prediction proposals?
Processing of PSD
Residual stresses are induced by
Residual stresses measured by
Shear stress decomposing
Solution - damage modes interaction
Solution approach
Solution approach
Solution type
Solution type
Solution used
Solution used
Special surface layers involved?
Tensor reduction
Type of contact damage
Type of material
Type of residual stresses
Type of solution
Type of solution
Type of solution
Type of the environment
Type of the environment
Type of treatment
Which part of the constitutive model was improved?
Yield condition
scale
technology
type of welds
Value 2:
A special apparatus described? - void if not, otherwise describe the target area
A special methodology described? - void if not, otherwise describe the target area
Calibration procedure described - no
Calibration procedure described - yes
Computation models - searchable list of methods
Concerns issues on evaluation of the results? - void if not, otherwise describe the target area
Contact geometry - line
Contact geometry - multi-point
Contact geometry - not distinguished
Contact geometry - point
Contains algorithms - info on the algorithm provided to comments
Contains algorithms - no
Damage cumulative rule - Corten-Dolan
Damage cumulative rule - Palmgren-Miner
Damage cumulative rule - Serensen-Kogaev
Damage cumulative rule - no solution
Damage cumulative rule - other type (commentary)
Description of used algorithms - description of the provided algorithms otherwise
Description of used algorithms - void if not given
Domain - aircraft industry
Domain - automotive
Domain - electronic applications
Domain - energy applications
Domain - marine industry
Domain - no preference
Domain - railway industry
Domain - space applications
Experiment - bonded, putty, - no
Experiment - bonded, putty, - yes
Experiment - damage modes interaction - creep damage
Experiment - damage modes interaction - mechanical loading
Experiment - damage modes interaction - no experiment
Experiment - damage modes interaction - oxidation
Experiment - joint configuration - butt joint - double strap
Experiment - joint configuration - butt joint - single strap
Experiment - joint configuration - lap joint
Experiment - joint configuration - no experiment
Experiment - load complexity - constant amplitude loading
Experiment - load complexity - no experiment
Experiment - load complexity - periodical block loading
Experiment - load complexity - random loading
Experiment - load complexity - small cycles superposed on large cycles
Experiment - load interactions - general combination
Experiment - load interactions - in-phase loading
Experiment - load interactions - isothermal loading
Experiment - load interactions - no experiment
Experiment - load interactions - out-of-phase loading
Experiment - load modes - no experiment
Experiment - load modes - other mode (commentary)
Experiment - load modes - plane bending
Experiment - load modes - push-pull
Experiment - load modes - rotating bending
Experiment - load modes - rotating bending
Experiment - multiaxial load - no
Experiment - multiaxial load - yes
Experiment - rivet type - blind rivets
Experiment - rivet type - countersunk rivets
Experiment - rivet type - dimpled rivets
Experiment - rivet type - no experiment
Experiment - rivet type - other type (commentary)
Experiment - rivet type - rivets with compensators
Experiment - rivet type - rivets with mushroom head
Experiment - typical number of rivets in the joint - more-rivet joints
Experiment - typical number of rivets in the joint - no experiment
Experiment - typical number of rivets in the joint - riveted panel
Experiment - typical number of rivets in the joint - riveted unit
Experiment - typical number of rivets in the joint - single-rivet joints
Experiment - typical number of rivets in the joint - two-rivet joints
Fatigue solution - searchable list of damage parameters used
Fatigue solution - searchable list of damage parameters used
Fatigue solution - searchable list of damage parameters used
Fatigue solution - searchable list of fatigue damage calculation methods used
Full elastic-plastic solution? - no for ex-post conversion to e-p from elastic solution
Full elastic-plastic solution? - yes for e-p solution
Hardening rule - kinematic
Hardening rule - mixed
Hardening rule - no
Hardening rule - other
How the local stress-strain fields were acquired? - BEM
How the local stress-strain fields were acquired? - FEM
How the local stress-strain fields were acquired? - Neuber method and similar solutions
How the local stress-strain fields were acquired? - based on the notch radius and stress intensity factor
How the local stress-strain fields were acquired? - not set
How the local stress-strain fields were acquired? - pseudostrain
How the local stress-strain fields were acquired? - pseudostress
Involves cycle counting? - no if the damage is integrated over whole load path
Involves cycle counting? - yes if the cycle-counting is involved
Involves environmental effect? - no
Involves environmental effect? - yes
Involves thermal effects? - no
Involves thermal effects? - yes
Involves welds? - no
Involves welds? - yes
Irradiation involved - no
Irradiation involved - yes
Load complexity - block loading
Load complexity - block loading
Load complexity - block loading
Load complexity - broad-band loading
Load complexity - harmonic loading
Load complexity - harmonic loading
Load complexity - harmonic loading
Load complexity - high- and low-stress cycles interaction
Load complexity - high- and low-stress cycles interaction
Load complexity - high- and low-stress cycles interaction
Load complexity - iso-frequency loading on different channels
Load complexity - iso-frequency loading on different channels
Load complexity - iso-frequency loading on different channels
Load complexity - narrow-band loading
Load complexity - no experiments
Load complexity - no experiments
Load complexity - no experiments
Load complexity - no experiments
Load complexity - non-Gaussian loading
Load complexity - periodical loading
Load complexity - periodical loading
Load complexity - periodical loading
Load complexity - randomized loading
Load complexity - randomized loading
Load complexity - randomized loading
Load complexity - substantial mean stress effect
Load complexity - substantial mean stress effect
Load complexity - substantial mean stress effect
Load complexity - white noise
Load properties - Gaussian loading
Load properties - broad-band loading
Load properties - narrow-band loading
Load properties - non-Gaussian loading
Load properties - not specified
Main focus - crack growth
Main focus - crack initiation
Main focus - endurance limit estimation
Main focus - residual stresses relaxation
Methods verified - more substantial verification
Methods verified - no
Methods verified - only basic verification (1-2 notch types)
Methods verified - very well verified (more than 4 notch types)
Model proposed - analysis in deviatoric space
Model proposed - critical plane (CPD formulation)
Model proposed - critical plane (max. SSR)
Model proposed - critical plane (max. damage)
Model proposed - endochronic
Model proposed - integral criterion (in parts)
Model proposed - integral criterion (whole DP)
Model proposed - micromechanical
Model proposed - multisurface
Model proposed - no
Model proposed - no
Model proposed - other (described in comments)
Model proposed - other type
Model proposed - overlay
Model proposed - single yield surface
Model proposed - two-surface model
New method proposed - no
New method proposed - proposed
New method proposed - validated extensively
New method proposed - validated on a small set (<100 data)
Notch effect - critical area
Notch effect - critical distance
Notch effect - critical length
Notch effect - critical volume
Notch effect - no
Notch effect - other (described in the comments)
Notch effect - stress gradient
Notch effect models - critical area
Notch effect models - critical distance
Notch effect models - critical length
Notch effect models - critical volume
Notch effect models - no
Notch effect models - other (described in the comments)
Notch effect models - stress gradient
Parameters of the notch evaluation method derived from - from common fatigue material parameters
Parameters of the notch evaluation method derived from - from common fracture mechanics material parameters
Parameters of the notch evaluation method derived from - from other special experiments (specify in comments)
Parameters of the notch evaluation method derived from - no special parameters
Periodical loading - in parts
Periodical loading - no
Periodical loading - no
Periodical loading - only
Periodical loading - only
Periodical loading - parts
Periodical loading - prevalent
Periodical loading - prevalent
Prediction proposals? - no
Prediction proposals? - yes
Processing of PSD - conversion to probability density function
Processing of PSD - direct damage calculation
Processing of PSD - not specified
Processing of PSD - other solution (commentary)
Residual stresses are induced by - cold expansion of holes
Residual stresses are induced by - laser shock peening
Residual stresses are induced by - low plasticity burnishing
Residual stresses are induced by - machining
Residual stresses are induced by - other
Residual stresses are induced by - press-fitting
Residual stresses are induced by - shot-peening
Residual stresses are induced by - tensile pre-straining
Residual stresses measured by - Barkhausen noise
Residual stresses measured by - X-ray diffraction
Residual stresses measured by - eddy current
Residual stresses measured by - hole-drilling method
Residual stresses measured by - neutron diffraction
Residual stresses measured by - ultrasonic
Shear stress decomposing - longest chord method
Shear stress decomposing - longest projection method
Shear stress decomposing - maximum rectangular prismatic hull
Shear stress decomposing - minimum circumscribed circle method
Shear stress decomposing - minimum circumscribed ellipse/ellipsoid method
Shear stress decomposing - minimum circumscribed hull
Shear stress decomposing - no
Shear stress decomposing - other (described in comments)
Solution - damage modes interaction - creep damage
Solution - damage modes interaction - mechanical loading
Solution - damage modes interaction - no solution
Solution - damage modes interaction - oxidation
Solution approach - description of the prediction method if any
Solution approach - local force-based solution
Solution approach - local strain-based solution
Solution approach - local stress-based solution
Solution approach - no solution
Solution approach - nominal solution
Solution approach - other type (commentary)
Solution type - cycle-by-cycle
Solution type - load path integration
Solution type - load path integration
Solution type - no solution
Solution type - no solution
Solution type - other solution
Solution type - rain-flow
Solution type - rain-flow matrix
Solution type - range pair counting
Solution type - spectral solution
Solution type - spectral solution
Solution used - otherwise description of the solution used
Solution used - otherwise description of the solution used
Solution used - void if not provided
Solution used - void if not provided
Special surface layers involved? - void if not, otherwise description
Tensor reduction - Tresca
Tensor reduction - multiaxial solution
Tensor reduction - no solution
Tensor reduction - other type (commentary)
Tensor reduction - principal stress
Tensor reduction - von Mises
Type of contact damage - fretting
Type of contact damage - not distinguished
Type of contact damage - pitting
Type of contact damage - rolling contact fatigue
Type of contact damage - wear
Type of material - searchable list of composite configuration
Type of residual stresses - both
Type of residual stresses - microstresses
Type of residual stresses - not defined, macrostresses
Type of solution - a list of evaluated solutions otherwise
Type of solution - searchable list of solution methods
Type of solution - searchable list of solution methods
Type of solution - void if not provided
Type of the environment - air
Type of the environment - dry
Type of the environment - dry/wet
Type of the environment - not distinguished
Type of the environment - not distinguished
Type of the environment - other
Type of the environment - salt water
Type of the environment - vacuum
Type of the environment - vapour
Type of the environment - water
Type of the environment - wet
Type of treatment - anodizing
Type of treatment - autofrettage
Type of treatment - carbonitriding
Type of treatment - carburizing
Type of treatment - cyaniding
Type of treatment - nitriding
Type of treatment - nitrocarburizing
Type of treatment - plasma-spraying
Type of treatment - shot peening
Type of treatment - thermal
Which part of the constitutive model was improved? - cyclic hardening
Which part of the constitutive model was improved? - cyclic softening
Which part of the constitutive model was improved? - no
Which part of the constitutive model was improved? - non-proportional hardening
Which part of the constitutive model was improved? - ratcheting
Which part of the constitutive model was improved? - variable amplitude loading
Yield condition - Hills
Yield condition - distortion
Yield condition - not defined
Yield condition - other type
Yield condition - von Mises
scale - a couple of welds evaluated (<=5)
scale - one particular weld evaluated
scale - whole structure with more welds evaluated
technology - additive welding
technology - friction stir welding
type of welds - seam welds
type of welds - spot welds
Input2:
Topical 3:
A special apparatus described?
A special methodology described?
Calibration procedure described
Computation models
Concerns issues on evaluation of the results?
Contact geometry
Contains algorithms
Damage cumulative rule
Description of used algorithms
Domain
Experiment - bonded, putty,
Experiment - damage modes interaction
Experiment - joint configuration
Experiment - load complexity
Experiment - load interactions
Experiment - load modes
Experiment - multiaxial load
Experiment - rivet type
Experiment - typical number of rivets in the joint
Fatigue solution
Fatigue solution
Fatigue solution
Fatigue solution
Full elastic-plastic solution?
Hardening rule
How the local stress-strain fields were acquired?
Involves cycle counting?
Involves environmental effect?
Involves thermal effects?
Involves welds?
Irradiation involved
Load complexity
Load complexity
Load complexity
Load complexity
Load properties
Main focus
Methods verified
Model proposed
Model proposed
New method proposed
Notch effect
Notch effect models
Parameters of the notch evaluation method derived from
Periodical loading
Periodical loading
Prediction proposals?
Processing of PSD
Residual stresses are induced by
Residual stresses measured by
Shear stress decomposing
Solution - damage modes interaction
Solution approach
Solution approach
Solution type
Solution type
Solution used
Solution used
Special surface layers involved?
Tensor reduction
Type of contact damage
Type of material
Type of residual stresses
Type of solution
Type of solution
Type of solution
Type of the environment
Type of the environment
Type of treatment
Which part of the constitutive model was improved?
Yield condition
scale
technology
type of welds
Value 3:
A special apparatus described? - void if not, otherwise describe the target area
A special methodology described? - void if not, otherwise describe the target area
Calibration procedure described - no
Calibration procedure described - yes
Computation models - searchable list of methods
Concerns issues on evaluation of the results? - void if not, otherwise describe the target area
Contact geometry - line
Contact geometry - multi-point
Contact geometry - not distinguished
Contact geometry - point
Contains algorithms - info on the algorithm provided to comments
Contains algorithms - no
Damage cumulative rule - Corten-Dolan
Damage cumulative rule - Palmgren-Miner
Damage cumulative rule - Serensen-Kogaev
Damage cumulative rule - no solution
Damage cumulative rule - other type (commentary)
Description of used algorithms - description of the provided algorithms otherwise
Description of used algorithms - void if not given
Domain - aircraft industry
Domain - automotive
Domain - electronic applications
Domain - energy applications
Domain - marine industry
Domain - no preference
Domain - railway industry
Domain - space applications
Experiment - bonded, putty, - no
Experiment - bonded, putty, - yes
Experiment - damage modes interaction - creep damage
Experiment - damage modes interaction - mechanical loading
Experiment - damage modes interaction - no experiment
Experiment - damage modes interaction - oxidation
Experiment - joint configuration - butt joint - double strap
Experiment - joint configuration - butt joint - single strap
Experiment - joint configuration - lap joint
Experiment - joint configuration - no experiment
Experiment - load complexity - constant amplitude loading
Experiment - load complexity - no experiment
Experiment - load complexity - periodical block loading
Experiment - load complexity - random loading
Experiment - load complexity - small cycles superposed on large cycles
Experiment - load interactions - general combination
Experiment - load interactions - in-phase loading
Experiment - load interactions - isothermal loading
Experiment - load interactions - no experiment
Experiment - load interactions - out-of-phase loading
Experiment - load modes - no experiment
Experiment - load modes - other mode (commentary)
Experiment - load modes - plane bending
Experiment - load modes - push-pull
Experiment - load modes - rotating bending
Experiment - load modes - rotating bending
Experiment - multiaxial load - no
Experiment - multiaxial load - yes
Experiment - rivet type - blind rivets
Experiment - rivet type - countersunk rivets
Experiment - rivet type - dimpled rivets
Experiment - rivet type - no experiment
Experiment - rivet type - other type (commentary)
Experiment - rivet type - rivets with compensators
Experiment - rivet type - rivets with mushroom head
Experiment - typical number of rivets in the joint - more-rivet joints
Experiment - typical number of rivets in the joint - no experiment
Experiment - typical number of rivets in the joint - riveted panel
Experiment - typical number of rivets in the joint - riveted unit
Experiment - typical number of rivets in the joint - single-rivet joints
Experiment - typical number of rivets in the joint - two-rivet joints
Fatigue solution - searchable list of damage parameters used
Fatigue solution - searchable list of damage parameters used
Fatigue solution - searchable list of damage parameters used
Fatigue solution - searchable list of fatigue damage calculation methods used
Full elastic-plastic solution? - no for ex-post conversion to e-p from elastic solution
Full elastic-plastic solution? - yes for e-p solution
Hardening rule - kinematic
Hardening rule - mixed
Hardening rule - no
Hardening rule - other
How the local stress-strain fields were acquired? - BEM
How the local stress-strain fields were acquired? - FEM
How the local stress-strain fields were acquired? - Neuber method and similar solutions
How the local stress-strain fields were acquired? - based on the notch radius and stress intensity factor
How the local stress-strain fields were acquired? - not set
How the local stress-strain fields were acquired? - pseudostrain
How the local stress-strain fields were acquired? - pseudostress
Involves cycle counting? - no if the damage is integrated over whole load path
Involves cycle counting? - yes if the cycle-counting is involved
Involves environmental effect? - no
Involves environmental effect? - yes
Involves thermal effects? - no
Involves thermal effects? - yes
Involves welds? - no
Involves welds? - yes
Irradiation involved - no
Irradiation involved - yes
Load complexity - block loading
Load complexity - block loading
Load complexity - block loading
Load complexity - broad-band loading
Load complexity - harmonic loading
Load complexity - harmonic loading
Load complexity - harmonic loading
Load complexity - high- and low-stress cycles interaction
Load complexity - high- and low-stress cycles interaction
Load complexity - high- and low-stress cycles interaction
Load complexity - iso-frequency loading on different channels
Load complexity - iso-frequency loading on different channels
Load complexity - iso-frequency loading on different channels
Load complexity - narrow-band loading
Load complexity - no experiments
Load complexity - no experiments
Load complexity - no experiments
Load complexity - no experiments
Load complexity - non-Gaussian loading
Load complexity - periodical loading
Load complexity - periodical loading
Load complexity - periodical loading
Load complexity - randomized loading
Load complexity - randomized loading
Load complexity - randomized loading
Load complexity - substantial mean stress effect
Load complexity - substantial mean stress effect
Load complexity - substantial mean stress effect
Load complexity - white noise
Load properties - Gaussian loading
Load properties - broad-band loading
Load properties - narrow-band loading
Load properties - non-Gaussian loading
Load properties - not specified
Main focus - crack growth
Main focus - crack initiation
Main focus - endurance limit estimation
Main focus - residual stresses relaxation
Methods verified - more substantial verification
Methods verified - no
Methods verified - only basic verification (1-2 notch types)
Methods verified - very well verified (more than 4 notch types)
Model proposed - analysis in deviatoric space
Model proposed - critical plane (CPD formulation)
Model proposed - critical plane (max. SSR)
Model proposed - critical plane (max. damage)
Model proposed - endochronic
Model proposed - integral criterion (in parts)
Model proposed - integral criterion (whole DP)
Model proposed - micromechanical
Model proposed - multisurface
Model proposed - no
Model proposed - no
Model proposed - other (described in comments)
Model proposed - other type
Model proposed - overlay
Model proposed - single yield surface
Model proposed - two-surface model
New method proposed - no
New method proposed - proposed
New method proposed - validated extensively
New method proposed - validated on a small set (<100 data)
Notch effect - critical area
Notch effect - critical distance
Notch effect - critical length
Notch effect - critical volume
Notch effect - no
Notch effect - other (described in the comments)
Notch effect - stress gradient
Notch effect models - critical area
Notch effect models - critical distance
Notch effect models - critical length
Notch effect models - critical volume
Notch effect models - no
Notch effect models - other (described in the comments)
Notch effect models - stress gradient
Parameters of the notch evaluation method derived from - from common fatigue material parameters
Parameters of the notch evaluation method derived from - from common fracture mechanics material parameters
Parameters of the notch evaluation method derived from - from other special experiments (specify in comments)
Parameters of the notch evaluation method derived from - no special parameters
Periodical loading - in parts
Periodical loading - no
Periodical loading - no
Periodical loading - only
Periodical loading - only
Periodical loading - parts
Periodical loading - prevalent
Periodical loading - prevalent
Prediction proposals? - no
Prediction proposals? - yes
Processing of PSD - conversion to probability density function
Processing of PSD - direct damage calculation
Processing of PSD - not specified
Processing of PSD - other solution (commentary)
Residual stresses are induced by - cold expansion of holes
Residual stresses are induced by - laser shock peening
Residual stresses are induced by - low plasticity burnishing
Residual stresses are induced by - machining
Residual stresses are induced by - other
Residual stresses are induced by - press-fitting
Residual stresses are induced by - shot-peening
Residual stresses are induced by - tensile pre-straining
Residual stresses measured by - Barkhausen noise
Residual stresses measured by - X-ray diffraction
Residual stresses measured by - eddy current
Residual stresses measured by - hole-drilling method
Residual stresses measured by - neutron diffraction
Residual stresses measured by - ultrasonic
Shear stress decomposing - longest chord method
Shear stress decomposing - longest projection method
Shear stress decomposing - maximum rectangular prismatic hull
Shear stress decomposing - minimum circumscribed circle method
Shear stress decomposing - minimum circumscribed ellipse/ellipsoid method
Shear stress decomposing - minimum circumscribed hull
Shear stress decomposing - no
Shear stress decomposing - other (described in comments)
Solution - damage modes interaction - creep damage
Solution - damage modes interaction - mechanical loading
Solution - damage modes interaction - no solution
Solution - damage modes interaction - oxidation
Solution approach - description of the prediction method if any
Solution approach - local force-based solution
Solution approach - local strain-based solution
Solution approach - local stress-based solution
Solution approach - no solution
Solution approach - nominal solution
Solution approach - other type (commentary)
Solution type - cycle-by-cycle
Solution type - load path integration
Solution type - load path integration
Solution type - no solution
Solution type - no solution
Solution type - other solution
Solution type - rain-flow
Solution type - rain-flow matrix
Solution type - range pair counting
Solution type - spectral solution
Solution type - spectral solution
Solution used - otherwise description of the solution used
Solution used - otherwise description of the solution used
Solution used - void if not provided
Solution used - void if not provided
Special surface layers involved? - void if not, otherwise description
Tensor reduction - Tresca
Tensor reduction - multiaxial solution
Tensor reduction - no solution
Tensor reduction - other type (commentary)
Tensor reduction - principal stress
Tensor reduction - von Mises
Type of contact damage - fretting
Type of contact damage - not distinguished
Type of contact damage - pitting
Type of contact damage - rolling contact fatigue
Type of contact damage - wear
Type of material - searchable list of composite configuration
Type of residual stresses - both
Type of residual stresses - microstresses
Type of residual stresses - not defined, macrostresses
Type of solution - a list of evaluated solutions otherwise
Type of solution - searchable list of solution methods
Type of solution - searchable list of solution methods
Type of solution - void if not provided
Type of the environment - air
Type of the environment - dry
Type of the environment - dry/wet
Type of the environment - not distinguished
Type of the environment - not distinguished
Type of the environment - other
Type of the environment - salt water
Type of the environment - vacuum
Type of the environment - vapour
Type of the environment - water
Type of the environment - wet
Type of treatment - anodizing
Type of treatment - autofrettage
Type of treatment - carbonitriding
Type of treatment - carburizing
Type of treatment - cyaniding
Type of treatment - nitriding
Type of treatment - nitrocarburizing
Type of treatment - plasma-spraying
Type of treatment - shot peening
Type of treatment - thermal
Which part of the constitutive model was improved? - cyclic hardening
Which part of the constitutive model was improved? - cyclic softening
Which part of the constitutive model was improved? - no
Which part of the constitutive model was improved? - non-proportional hardening
Which part of the constitutive model was improved? - ratcheting
Which part of the constitutive model was improved? - variable amplitude loading
Yield condition - Hills
Yield condition - distortion
Yield condition - not defined
Yield condition - other type
Yield condition - von Mises
scale - a couple of welds evaluated (<=5)
scale - one particular weld evaluated
scale - whole structure with more welds evaluated
technology - additive welding
technology - friction stir welding
type of welds - seam welds
type of welds - spot welds
Input3:
Submit
Clear