Engineering Research
Materials Science
Engineering Series
Books by Keyword: Fracture
Books
This collection of peer-reviewed papers by results of 15th International Conference on Aluminium Alloys (ICAA15, 12-16 June, 2016 in Chongqing, China) that are cover most aspects of aluminium alloys, including casting and solidification; phase transformations; thermo-mechanical processing; metal plasticity and forming; strength, fracture and fatigue; advanced atomic-scale characterization; corrosion and surface properties; novel processes and alloy design; modelling and numerical simulation.
The 252 papers are grouped as follows:
Chapter 1: Formability of Metallic Materials;
Chapter 2: Forging and Rolling;
Chapter 3: Composites Forming Processes;
Chapter 4: Friction and Wear in Material Processing;
Chapter 5: Continuum Constitutive Modelling and Scale Transition Modelling;
Chapter 6: Nano-Structured Materials and Micro Forming;
Chapter 7: Additive Manufacturing and Non-Conventional Processes;
Chapter 8: Structures, Properties and Processing of Polymers (and Biomass Based Materials);
Chapter 9: Integrated Design, Modelling and Reliability Assessment in Forming (I-DMR);
Chapter 10: Small Scale Plasticity, Damage and Fracture;
Chapter 11: Intelligent Computation in Forming Processes;
Chapter 12: Incremental and Sheet Metal Forming;
Chapter 13: Machining and Cutting;
Chapter 14: New and Advanced Numerical Strategies for Material Forming;
Chapter 15: Optimization and Inverse Analysis in Forming;
Chapter 16: Innovative Joining by Forming Technologies;
Chapter 17: Heat Transfer Modelling;
Chapter 18: Semi-Solid Processes;
Chapter 19: Extrusion and Drawing;
Chapter 20: Energy Efficient Solutions in Material Forming
Volume is indexed by Thomson Reuters CPCI-S (WoS).
The 211 papers are grouped as follows:
Chapter 1: Advanced Analysis,
Chapter 2: Casting and Solidification,
Chapter 3: Corrosion, Coatings and Surface Properties,
Chapter 4: Fatigue, Fracture and Creep,
Chapter 5: Joining,
Chapter 6: Mechanical Properties,
Chapter 7: Metal Plasticity and Forming,
Chapter 8: Modelling and Simulation,
Chapter 9: Novel Processes and Materials,
Chapter 10: Phase Transformations,
Chapter 11: Refining and Recycling,
Chapter 12: Thermomechanical Processing
The 508 papers are grouped as follows:
Chapter 1: Alloys and Non-Ferrous Materials,
Chapter 2: Iron and Steel,
Chapter 3: Composites,
Chapter 4: Micro/Nano Materials and Technologies,
Chapter 5: Ceramics,
Chapter 6: Optical/Electronic/Magnetic Materials and Technologies,
Chapter 7: Building and Construction Research,
Chapter 8: Environment-Friendly Materials,
Chapter 9: Biomaterials and Bioresearch,
Chapter 10: Polymer Materials,
Chapter 11: Film Materials,
Chapter 12: Textile Materials and Technologies,
Chapter 13: Corrosion and Surface Treatment Technology,
Chapter 14: Materials Mechanical Behavior and Fracture,
Chapter 15: Surface Engineering / Coatings Technology,
Chapter 16: Forming Technologies,
Chapter 17: Material Machining,
Chapter 18: Welding and Joining,
Chapter 19: Micro-Fabrication Techniques,
Chapter 20: Laser Processing Technology,
Chapter 21: Machining Tools, Testing Technologies and Error Measurement,
Chapter 22: Modeling, Analysis and Simulation of Processes,
Chapter 23: Thermal Engineering Theory and Applications,
Chapter 24: Mineral and Soil Mining and Processing
The 139 papers are grouped as follows:
Chapter 1: Advanced Materials and Multiscale Modelling,
Chapter 2: Computational Fluid Dynamics and Thermofluids,
Chapter 3: Aerospace and Vehicle Engineering,
Chapter 4: Biomechanics, Biomimetics and Biomedical Engineering,
Chapter 5: Geomechanics and Geotechnics,
Chapter 6: Structural and Solid Mechanics,
Chapter 7: Vibration and Dynamics,
Chapter 8: Fracture and Damage,
Chapter 9: Impact and Explosive Modelling,
Chapter 10: Structural and Topology Optimization
The 163 papers are grouped as follows:
Chapter 1: Polymers, Rubber and Elastomers,
Chapter 2: Metals and Alloys,
Chapter 3: Ceramics,
Chapter 4: Composites,
Chapter 5: Micro/Nano Materials,
Chapter 6: Optical/Electrical/Magnetic Materials,
Chapter 7: Energy Materials and Research,
Chapter 8: Biomaterials,
Chapter 9: Chemical Materials and Testing Technology,
Chapter 10: Films,
Chapter 11: Building and Road Materials, Construction Techniques,
Chapter 12: Surface Engineering/Coatings Technology,
Chapter 13: Materials Processing and Manufacturing Technology,
Chapter 14: Mining and Mineral Processing,
Chapter 15: Mechanical Behavior and Fracture,
Chapter 16: Friction, Wear and Lubrication,
Chapter 17: Heat Generation and Conduction
Collection of selected, peer reviewed papers from the 2013 4th International Conference on Advances in Materials and Manufacturing (ICAMMP 2013), 18-19 December, 2013, Kunming, China.
The 268 papers are grouped as follows:
Chapter 1: Composites,
Chapter 2: Micro/Nano Materials,
Chapter 3: Steel/Iron,
Chapter 4: Ceramics,
Chapter 5: Metal Alloy Material,
Chapter 6: Optical / Electrical / Magnetic Materials,
Chapter 7: Energy Materials,
Chapter 8: Biomaterials and Technology,
Chapter 9: Chemical Materials,
Chapter 10: Film Material,
Chapter 11: Building Materials,
Chapter 12: Materials Mechanical Behavior and Fracture,
Chapter 13: Materials Physics and Chemistry,
Chapter 14: Selection, Testing and Evaluation of Materials,
Chapter 15: Surface Engineering / Coatings Technology,
Chapter 16: Material Forming,
Chapter 17: Material Machining,
Chapter 18: Welding and Joining,
Chapter 19: Materials Processing Technologies
Chapter 1: Metal Materials;
Chapter 2: Electronic and Magnetic Materials;
Chapter 3: Optical Materials;
Chapter 4: Structural Materials;
Chapter 5: Biomaterials and Healthcare;
Chapter 6: Energy and Environment Materials;
Chapter 7: Nano-Scale and Amorphous Materials;
Chapter 8: Functional Materials;
Chapter 9: Technologies, Engineering and Processing Materials.
The book covers a wide range of topics: Fracture Mechanics, Failure analysis, Composites, Multiscale Modelling, Micromechanics, Structural Health Monitoring, Damage Tolerance, Corrosion, Creep, Non-linear problems, Dynamic Fracture, Residual Stress, Environmental effects, Crack Propagation, Metallic and Concrete Materials, Probabilistic Aspects, Computer Modeling Methods (Finite Elements, Boundary Elements and Meshless), Microstructural and Multiscale Aspects.