This book gathers a selection of peer-reviewed papers presented at the 10th International Conference on Fracture Fatigue and Wear (FFW 2022), held in the city of Ghent, Belgium, on August 2-3, 2022. The contributions, prepared by international scientists and engineers, cover the latest advances in and innovative applications of fracture mechanics, fatigue of materials, tribology, and wear of materials. In addition, they discuss industrial applications and cover theoretical and analytical methods, numerical simulations, and experimental techniques. The book is intended for academics, including…mehr
This book gathers a selection of peer-reviewed papers presented at the 10th International Conference on Fracture Fatigue and Wear (FFW 2022), held in the city of Ghent, Belgium, on August 2-3, 2022. The contributions, prepared by international scientists and engineers, cover the latest advances in and innovative applications of fracture mechanics, fatigue of materials, tribology, and wear of materials. In addition, they discuss industrial applications and cover theoretical and analytical methods, numerical simulations, and experimental techniques. The book is intended for academics, including graduate students and researchers, as well as industrial practitioners working in the areas of fracture fatigue and wear.
Prof. Magd Abdel Wahab is Full Professor of Applied Mechanics in the Faculty of Engineering and Architecture at Ghent University, Belgium. He received his B.Sc., 1988, in Civil Engineering and his M.Sc., 1991, in Structural Mechanics, both from Cairo University. He completed his Ph.D. in Fracture Mechanics in 1995 at KU Leuven, Belgium. He was awarded the degree of Doctor of Science from the University of Surrey in 2008. He has published more than 600 scientific papers in solid mechanics and dynamics of structures and edited more than 30 books and proceedings. His research interests include fracture mechanics, damage mechanics, fatigue of materials, durability, and dynamics and vibration of structures.
Inhaltsangabe
Part 1: Fracture.- Chapter 1. A few fracture features of Al-based and Cu-based ribbon metallic glasses under non-isothermal and oscillating loading.- Chapter 2. Finite element failure analysis of single-lap bolted connection under impact load.- Chapter 3. Plasticity analysis in aluminum alloy plates repaired with bonded composite patch under overload.- Chapter 4. Machine Learning for predicting pipeline dis-placements based on soil rigidity.- Chapter 5. Delamination detection of rectangular laminated compo-site plates by combining the one-dimensional and two-dimensional discrete wavelet transforms.- Chapter 6. A feasibility review of novel avian-based optimization algorithms for damage detection in a truss bridge.- Chapter 7. Static assessment of notched additively manufactured polymers based on the Theory of Critical Distances.- Part 2: Fatigue.- Chapter 8. Modelling crack initiation in low cycle fatigue: a review.- Chapter 9. Investigating the Effect of the Characteristics of Inclusions and Micro-voids on Fretting Fatigue Initiation Lifetime with Two-scale Analysis Approach.- Part 3: Wear.- Chapter 10. Effects of Load and SiCp Addition on Wear Behaviour of Powder Injection Moulded Aluminium Composite.
Part 1: Fracture.- Chapter 1. A few fracture features of Al-based and Cu-based ribbon metallic glasses under non-isothermal and oscillating loading.- Chapter 2. Finite element failure analysis of single-lap bolted connection under impact load.- Chapter 3. Plasticity analysis in aluminum alloy plates repaired with bonded composite patch under overload.- Chapter 4. Machine Learning for predicting pipeline dis-placements based on soil rigidity.- Chapter 5. Delamination detection of rectangular laminated compo-site plates by combining the one-dimensional and two-dimensional discrete wavelet transforms.- Chapter 6. A feasibility review of novel avian-based optimization algorithms for damage detection in a truss bridge.- Chapter 7. Static assessment of notched additively manufactured polymers based on the Theory of Critical Distances.- Part 2: Fatigue.- Chapter 8. Modelling crack initiation in low cycle fatigue: a review.- Chapter 9. Investigating the Effect of the Characteristics of Inclusions and Micro-voids on Fretting Fatigue Initiation Lifetime with Two-scale Analysis Approach.- Part 3: Wear.- Chapter 10. Effects of Load and SiCp Addition on Wear Behaviour of Powder Injection Moulded Aluminium Composite.
Part 1: Fracture.- Chapter 1. A few fracture features of Al-based and Cu-based ribbon metallic glasses under non-isothermal and oscillating loading.- Chapter 2. Finite element failure analysis of single-lap bolted connection under impact load.- Chapter 3. Plasticity analysis in aluminum alloy plates repaired with bonded composite patch under overload.- Chapter 4. Machine Learning for predicting pipeline dis-placements based on soil rigidity.- Chapter 5. Delamination detection of rectangular laminated compo-site plates by combining the one-dimensional and two-dimensional discrete wavelet transforms.- Chapter 6. A feasibility review of novel avian-based optimization algorithms for damage detection in a truss bridge.- Chapter 7. Static assessment of notched additively manufactured polymers based on the Theory of Critical Distances.- Part 2: Fatigue.- Chapter 8. Modelling crack initiation in low cycle fatigue: a review.- Chapter 9. Investigating the Effect of the Characteristics of Inclusions and Micro-voids on Fretting Fatigue Initiation Lifetime with Two-scale Analysis Approach.- Part 3: Wear.- Chapter 10. Effects of Load and SiCp Addition on Wear Behaviour of Powder Injection Moulded Aluminium Composite.
Part 1: Fracture.- Chapter 1. A few fracture features of Al-based and Cu-based ribbon metallic glasses under non-isothermal and oscillating loading.- Chapter 2. Finite element failure analysis of single-lap bolted connection under impact load.- Chapter 3. Plasticity analysis in aluminum alloy plates repaired with bonded composite patch under overload.- Chapter 4. Machine Learning for predicting pipeline dis-placements based on soil rigidity.- Chapter 5. Delamination detection of rectangular laminated compo-site plates by combining the one-dimensional and two-dimensional discrete wavelet transforms.- Chapter 6. A feasibility review of novel avian-based optimization algorithms for damage detection in a truss bridge.- Chapter 7. Static assessment of notched additively manufactured polymers based on the Theory of Critical Distances.- Part 2: Fatigue.- Chapter 8. Modelling crack initiation in low cycle fatigue: a review.- Chapter 9. Investigating the Effect of the Characteristics of Inclusions and Micro-voids on Fretting Fatigue Initiation Lifetime with Two-scale Analysis Approach.- Part 3: Wear.- Chapter 10. Effects of Load and SiCp Addition on Wear Behaviour of Powder Injection Moulded Aluminium Composite.
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