Predicting Low Cycle Fatigue Life through Simulation of Crack in Cover Plate Welded Beam to Column Connections

@article{Ghassemieh2017PredictingLC,
  title={Predicting Low Cycle Fatigue Life through Simulation of Crack in Cover Plate Welded Beam to Column Connections},
  author={Mehdi Ghassemieh and Moein Rezapour and Ashkan Taghinia},
  journal={Applied and Computational Mechanics},
  year={2017},
  volume={48},
  pages={39-52},
  url={https://api.semanticscholar.org/CorpusID:56330819}
}
This paper presents a low cycle fatigue life curve by simulating a crack in a cover plate welded moment connection. Initiation of ductile fracture in steel is controlled by growth and coalescence of micro-voids. This research used a numerical method using finite element modeling and simulation of ductile crack initiation by a micromechanical model. Therefore, a finite element model of a cover plate welded moment connection was developed in ABAQUS software, and a FORTRAN subroutine was used in… 
View via Publisher
jcamech.ut.ac.ir
9 Citations
Background Citations
4

Figures and Tables from this paper

9 Citations

Extremely - low cycle fatigue fracture of Q235 steel at different stress triaxialities

Numerical Modeling of Unreinforced Masonry Walls Strengthened with Fe-Based Shape Memory Alloy Strips

The effects of shape memory alloy as post-tensioning reinforcements on originally unreinforced masonry walls were investigated using finite element simulations in Abaqus and increased the strength, stiffness, and energy dissipation capacity.

Shear wall modeling with asymmetric openings by macro elements

Optimization of thermal curing cycle for a large epoxy model

Heat generation in an exothermic reaction during the curing process and low thermal conductivity of the epoxy resin produces high peak temperature and temperature gradients which result in internal

Evaluating the Effectiveness of a New Self-Centering Damper on a Knee Braced Frame

The use of shape memory alloys (SMAs) has been receiving increasing attention among researchers due to their special properties. One of the most important features of SMA is the superelastic behavior

Analytical and Numerical Investigation of Knee Brace Equipped with a Shape Memory Alloy Damper

Shape memory alloys (SMAs) are some of the new materials that have attracted the attention of many engineers due to their unique behavior. The most important advantage of these materials is their

Evaluating the Effectiveness of a Shape Memory Alloy on a Connection Equipped with Slit Damper

Purpose The main purpose of this study was to investigate the effect of dampers equipped with shape memory alloys where steel connections equipped with slit dampers were used. For this purpose, 16

Influence of Scale Factor on Structuring of Epoxy Polymer Products under the Action of Thermal Energy

The structural features of epoxy polymer samples of different thicknesses under the influence of thermal energy are studied. The structure of fracture patterns of epoxy polymers, which are

Evaluation of progressive collapse resistance performance of steel OMF with WCPF connections

20 References

Experimental and numerical investigations on extremely-low-cycle fatigue fracture behavior of steel welded joints

On the prediction of low-cycle fatigue in steel welded beam-to-column joints

Ductile-fatigue transition fracture mode of welded T-joints under quasi-static cyclic large plastic strain loading

Finite element simulation of ultra low cycle fatigue cracking in steel structures

Cyclic Void Growth Model to Assess Ductile Fracture Initiation in Structural Steels due to Ultra Low Cycle Fatigue

A new model is proposed to simulate ductile fracture initiation due to large amplitude cyclic straining in structural steels, which is often the governing limit state in steel structures subjected to

Low cycle fatigue life prediction of four bolt extended unstiffened end plate moment connections

Prediction of Fatigue Life of Welded Beam-to-Column Connections under Earthquake Loading

A building may suffer damage during an earthquake as a result of inelastic deformations developed in the members or connections. It is important that the structural integrity of the building be

Macromodeling of Crack Damage in Steel Beams Subjected to Nonstationary Low Cycle Fatigue

AbstractThis study proposes a model of crack initiation and propagation in steel beams subjected to ultralow cycle fatigue. The model can be included in the general framework of lumped damage

Ductile fracture prediction for welded steel connections under monotonic loading based on micromechanical fracture criteria

APPLICABILITY OF DAMAGE INDICES FOR DETECTION OF CRACKING IN STEEL MOMENT CONNECTIONS

Article history: Received: 22 September 2013 Accepted: 30 November 2013 Analytical detection of cracking in connections of steel moment resisting frames using simple damage indices is important since