Sections
ECF19 will be the nineteenth in a series of biennial international conferences held by the European Structural Integrity Society (ESIS). The objective of the conference is to promote research and scientific communication on durability, reliability and safety of engineering materials, components and structures. The conference topics will focus on all important aspects of fracture and fatigue.
List of Sections
- - Models, criteria, testing, engineering methods
- - Multiaxial/mixed mode Fatigue and Fracture
- Multiaxial/mixed mode fracture
- In-plane and out-of-plane constraint effects
- Mixed mode fracture
- Multiaxial fatigue and fracture
- Notch fracture mechanics
- - Dynamic fracture
- Dynamic fracture; damage and fracture under dynamic loading
- Dynamic deformation and fracture of composite structures
- Dynamic strength and fracture
- - Multicyclic loading and multiscale fracture
- Multicyclic loading, multi-scale material structures
- Multi-scale modeling of material fracture
- Modelling of multiscale fracture of materials
- - Fatigue of materials, components and structures
- Fatigue of materials, components and structures
- Fatigue and fracture under variable amplitude loading
- - Fracture processes under the action of physical fields and chemically active media
- Fracture processes under the action of physical fields
- Fracture processes under the action of chemically active media
- Fracture processes under the combined action of physical fields and chemically active media
- Hydrogen effects on structural integrity of materials
- - Structural integrity
- Methods for residual lifetime evaluation and prediction
- Structural integrity assessment
- New equipment and technologies for monitoring the technical state of potentially dangerous structures
- Diagnostics of structural materials ageing
- Inverse problems of defects and cracks identification
- Structural integrity of welded joints
- Methods for prediction of material properties and structural integrity assessment
- - New methods and equipment for fracture testing
- New methods and equipment for fracture resistance testing
- Experimental testing and photoelasticity
- - Fracture mechanics applications
- Aircraft; marine transport, railway transport; nuclear; gas and oil industry; energetics
- Durability, safety and reliability of complex technical systems
- Nondestructive testing and evaluation of structural components
- Fracture mechanics in design of fracture resistant materials and components
- Fracture in technology
- - Computational fracture mechanics
- Methods of computational fracture mechanics and benchmark problems
- Numerical modeling of fracture of materials and structures
- Virtual fracture analysis and testing
- - Geomechanics and geomaterials
- Laboratory and field measurements of fracture characteristics of geomaterials and natural objects
- Models of fracture in geomechanics and geoengineering
- Fracture mechanics and earthquake prediction
- Fracture mechanics in geotechnologies
- - Fracture processes in forming and contact interaction
- Numerical and experimental analysis of fracture phenomenon in metal forming
- Fracture processes in contact interaction
- - Physical mesomechanics of fracture
- Physical Mesomechanics of Fracture
- Nano-structured materials, Fracture mechanics of biomaterials
- - Mechanisms of material degradation under operation of NPP equipments
- - Micromechanisms of Fracture and Fatigue
- - Acoustic and Other Forms of Energy Emissions from Fracture Phenomena
- - Advanced crack models
- Recent advances in cohesive modeling
- Damage based fracture models
- Ductile Failure
| Section | Monday 27 th | Tuesday 28 th | Wednesday 29 th | Thursday 30 th | Friday 31 th | ||||||
| 11 20 —13 00 | 15 00 —16 00 | 16 20 —18 00 | 11 20 —13 00 | 15 00 —16 00 | 11 20 —13 00 | 15 00 —16 00 | 11 20 —13 00 | 15 00 —16 00 | 16 20 —18 00 | 9 00 —10 00 | |
| Models, criteria, testing, engineering methods | S2
Pushkin 1 |
S2
Pushkin 1 |
S2
Pushkin 1 |
S2
Pushkin 1 | S2
Pushkin 1 |
S2
Pushkin 1 |
S2
Pushkin 1 | ||||
| Multiaxial/mixed mode Fatigue and Fracture | S3
Lermontov |
S3
Lermontov |
S3
Lermontov |
S3
Lermontov |
S3
Lermontov | ||||||
| Dynamic fracture | S4
Pushkin 2 |
S4
Pushkin 2 | S4
Pushkin 2 |
S4
Pushkin 2 |
S4
Pushkin 2 |
S4
Pushkin 2 | |||||
| Multicyclic loading and multiscale fracture | S5
Dostoevsky |
S5
Dostoevsky | S5
Dostoevsky | S5
Dostoevsky |
S5
Dostoevsky |
S5
Dostoevsky | |||||
| Fatigue of materials, components and structures | S6
Napoleon |
S6
Napoleon |
S6
Napoleon |
S6
Napoleon |
S6
Napoleon |
S6
Napoleon |
S6
Napoleon | ||||
| Fracture processes under the action of physical fields and chemically active media | S7
Tolstoy |
S7
Tolstoy |
S7
Tolstoy |
S7
Tolstoy | S7
Tolstoy |
S7
Tolstoy |
S7
Tolstoy | ||||
| Structural integrity | S8
Dostoevsky | S8
Dostoevsky | S8
Dostoevsky |
S8
Dostoevsky |
S8
Dostoevsky |
||||||
| New methods and equipment for fracture testing | S9
Tchekhov | S9
Tchekhov | |||||||||
| Fracture mechanics applications | S10
Napoleon |
S10
Napoleon |
S10
Napoleon |
S10
Napoleon |
|||||||
| Computational fracture mechanics | S11
Pushkin 2 | S11
Pushkin 2 |
S11
Pushkin 2 |
S11
Pushkin 2 |
S11
Pushkin 2 |
||||||
| Geomechanics and geomaterials | S12
Tchekhov | S12
Tchekhov |
|||||||||
| Fracture processes in forming and contact interaction | S13
Pushkin 1 | S13
Tchekhov | S13
Lermontov |
||||||||
| Physical mesomechanics of fracture | S14
Tchekhov | S14
Tchekhov | S14
Pushkin 1 |
S14
Pushkin 1 |
S14
Pushkin 1 |
||||||
| Mechanisms of material degradation under operation of NPP equipments | S15
Tolstoy | S15
Tolstoy | |||||||||
| Micromechanisms of Fracture and Fatigue | S16
Tchekhov |
S16
Tchekhov | S16
Tchekhov | S16
Lermontov | |||||||
| Acoustic and Other Forms of Energy Emissions from Fracture Phenomena | S17
Lermontov | S17
Lermontov |
S17
Lermontov | ||||||||
| Advanced crack models | S18
Tchekhov | S18
Lermontov | S18
Tolstoy | S18
Tolstoy |
|||||||
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