Fracture, Fatigue, Failure and Damage Evolution , Volume 3 (eBook, PDF)

Proceedings of the 2020 Annual Conference on Experimental and Applied Mechanics

• Format: PDF

Produktbeschreibung

Fracture, Fatigue, Failure and Damage Evolution, Volume 3 of the Proceedings of the 2020 SEM Annual Conference & Exposition on Experimental and Applied Mechanics, the third volume of seven from the Conference, brings together contributions to this important area of research and engineering.

The collection presents early findings and case studies on a wide range of areas, including:

Novel Experimental Methods

Extreme Environments

Interfacial Fracture

Integration of Models & Experiments

Mechanics of Energy & Energetic Materials

Integration of Models & Experiments

In Situ Techniques for Fatigue & Fracture

Microscale & Microstructural Effects on Mechanical Behavior

Produktdetails

• Verlag: Springer International Publishing
• Erscheinungstermin: 26. März 2021
• Englisch
• ISBN-13: 9783030609597
• Artikelnr.: 61381099

Inhaltsangabe

Chapter 1. Influence of Fracture and Delayed Effects on Steel-Concrete Composite Structures Comparison of Analytical and Numerical Results.- Chapter 2. Characterization of High Frequency Pulse Loading on Fatigue of Metals.- Chapter 3. Fracture Parameters and Failure Visualization of Al6063-T6 under Different Loading Rates.- Chapter 4. Fatigue Life Prediction of Natural Rubber in Antivibratory Applications.- Chapter 5. Fatigue Assessment of Porosity in Electron Beam Melted Ti-6Al-4V.- Chapter 6. Bayesian Updating of a Cracking Model for Reinforced Concrete Structures Subjected to Static and Cyclic Loadings.- Chapter 7. Crack Jumping in Fabric Composite Fracture Testing.- Chapter 8. Effect of Crack-Parallel Compression or Tension on Mode-I Fracture Energy of Quasibrittle Material – as applied to Concrete.- Chapter 9. Modal Validation of Academic Bladed Disk with DIC.- Chapter 10. Assessing Bond Strength in 304L Stainless Steel Plate Welded using Plastic Explosives.- Chapter 11. Real-TimeVisualization of Damage Progression Inside GFRP Composites via High-Speed X-Ray PCI Technique.- Chapter 12. Watching High-Cycle Fatigue with Automated Scanning Electron Microscope Experiments.- Chapter 13. Determination of Mixed-mode (I/III) Fracture of Polycarbonate (PC).- Chapter 14. Influence of Dynamic Multiaxial Transverse Loading on Dyneema® SK76 Single Fiber Failure.- Chapter 15. Using Crack Geometry to Determine Fracture Properties.- Chapter 16. Dynamic Fracture-Toughness Testing of a Hierarchically Nano-Structured Solid.

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Chapter 1. Influence of Fracture and Delayed Effects on Steel-Concrete Composite Structures Comparison of Analytical and Numerical Results.- Chapter 2. Characterization of High Frequency Pulse Loading on Fatigue of Metals.- Chapter 3. Fracture Parameters and Failure Visualization of Al6063-T6 under Different Loading Rates.- Chapter 4. Fatigue Life Prediction of Natural Rubber in Antivibratory Applications.- Chapter 5. Fatigue Assessment of Porosity in Electron Beam Melted Ti-6Al-4V.- Chapter 6. Bayesian Updating of a Cracking Model for Reinforced Concrete Structures Subjected to Static and Cyclic Loadings.- Chapter 7. Crack Jumping in Fabric Composite Fracture Testing.- Chapter 8. Effect of Crack-Parallel Compression or Tension on Mode-I Fracture Energy of Quasibrittle Material - as applied to Concrete.- Chapter 9. Modal Validation of Academic Bladed Disk with DIC.- Chapter 10. Assessing Bond Strength in 304L Stainless Steel Plate Welded using Plastic Explosives.- Chapter 11. Real-TimeVisualization of Damage Progression Inside GFRP Composites via High-Speed X-Ray PCI Technique.- Chapter 12. Watching High-Cycle Fatigue with Automated Scanning Electron Microscope Experiments.- Chapter 13. Determination of Mixed-mode (I/III) Fracture of Polycarbonate (PC).- Chapter 14. Influence of Dynamic Multiaxial Transverse Loading on Dyneema® SK76 Single Fiber Failure.- Chapter 15. Using Crack Geometry to Determine Fracture Properties.- Chapter 16. Dynamic Fracture-Toughness Testing of a Hierarchically Nano-Structured Solid.