LCF9  Ninth International Conference  on Low Cycle Fatigue
search
  • LCF9  Ninth International Conference  on Low Cycle Fatigue
  • LCF9  Ninth International Conference  on Low Cycle Fatigue
  • LCF9  Ninth International Conference  on Low Cycle Fatigue
  • LCF9  Ninth International Conference  on Low Cycle Fatigue
  • LCF9  Ninth International Conference  on Low Cycle Fatigue
  • LCF9  Ninth International Conference  on Low Cycle Fatigue

LCF9 Ninth International Conference on Low Cycle Fatigue

Topics

  • Isothermal LCF, Thermomechanical Fatigue (TMF) and Multiaxial LCF
  • Superimposed LCF/HCF & TMF/HCF Loadings and Creep-Fatigue Interaction
  • In-situ Fatigue Testing
  • Microstructural Aspects of Cyclic Plasticity, Fatigue Damage, Crack Initiation and –Growth
  • Influence of Surface, Environment and Protective Coatings
  • Advanced Materials and Case Studies
  • Novel Experimental Methods and Standardization
  • Deformation & Damage Modelling and Simulation Based Life Assessment
  • Additive Manufacturing
€84.11
Quantity

 

Datenschutzbedingungen (bearbeiten im Modul "Kundenvorteile")

 

Lieferbedingungen (bearbeiten im Modul "Kundenvorteile")

 

Rücksendebedingungen (bearbeiten im Modul "Kundenvorteile")

Scope

Continuing the successful series of LCF conferences established in 1979, the Ninth International Conference on Low Cycle Fatigue (LCF9) will now be held in Berlin, Germany, from 21 to 23 June 2022. The permanent and even growing interest of the scientific community in lowcycle fatigue, including thermomechanical fatigue addresses on the one hand a broad range of applications, e.g. in energy technology, transportation, civil engineering, and several other topics. On the other hand, many scientific questions on fundamental deformation and damage mechanisms, influence of multiaxial stresses / strains, creep-fatigue and TMF/HCF interaction as well as crack initiation and growth are investigated with increasing experimental efforts.

As a bridge between fundamental research and application in component and structural design, simulation approaches for cyclic plasticity, crack initiation and growth have made impressive and still continuing progress in the recent decades: FEM-based deformation and life assessment models at different scales, from the microstructure to macroscopic structures, are state-of-the art and under further successful development, especially for reliable design of components undergoing complex thermomechanical loadings. Current research activities show that LCF research keeps being a hot topic in material research and in structural integrity considerations as well.

This development is augmented by the current megatrend in digitalization imposing new challenges in data acquisition and storage in appropriate database structures as well as in data processing and usage of cloud computing approaches in fatigue research which is a-priori associated with handling big data volumes in experiment and simulation. The increase in 2D-3D full-field measurements by image-volume correlation associated to high-fidelity FEM simulations are a major challenge in this context.

The objective of LCF9 is to provide a worldwide platform for scientific communication and discussion as well as a point of origin for collaboration of scientists and engineers interested in fundamental aspects and practical application as well as novel challenges in the context of digitalization.

The conference comprises plenary lectures given by outstanding international scientists and contributed oral presentations.

Prof. Tilmann Beck
Technische Universität Kaiserslautern, Germany
beck@mv.uni-kl.de

Prof. Eric Charkaluk
Ecole Polytechnique, Palaiseau, France
eric.charkaluk@polytechnique.edu

Reference
LCF9-2022-BB

Title
LCF9 Ninth International Conference on Low Cycle Fatigue
DOI
10.48447/LCF9-2022-BB
Editor(s)
T. Beck, E. Charkaluk
Event
LCF9 - Ninth International Conference on Low Cycle Fatigue
Year of publication
2022
Publication type
conference proceedings (PDF)
Language
English
Keywords
Low Cycle Fatigue, LCF