Fracture, Fatigue, Failure, Damage Evolution and Thermomechanics & Infrared Imaging, Vol. 4

Front Cover	1
Conference Proceedings of the Society for Experimental Mechanics Series	2
Fracture, Fatigue, Failure, Damage Evolution and Thermomechanics & Infrared Imaging, Vol. 4	4
Preface	6
Contents	8
Chapter 1 Rapid Fatigue Characterisation of AlSi10Mg-AM using Energy-based approaches	10
Introduction	10
Materials and Methods	11
Results	12
Conclusions	14
Chapter 2 Effect of Induced Porosity on Fatigue Performance of Additively Manufactured Short-Fiber Thermoplastics Using Infrared Thermography	16
Introduction	16
Background	17
Materials	17
IRT Testing Procedure	18
Results and Discussion	19
Conclusions and Future Work	21
Chapter 3 Fracture Properties Identification using Full-field Measurements: Some Important Concepts and Validation	24
Introduction	24
Simulation of DIC measurements on CT specimen	24
Results	26
Conclusion and Future Work	28
Chapter 4 Energy Dissipation Measurement Under Cyclic Torsional Loading Using Infrared Thermography	30
Introduction	30
Experimental Setup and Specimen	30
Results	31
Conclusion	32
Chapter 5 On the Calculation of the Initial Temperature Slope: Key Considerations for the Fatigue Limit Estimation	34
Introduction	34
Experiments	35
Results	37
Conclusions	41
Chapter 6 Investigation of Failure in Unidirectional Adhesively-Bonded Composite Joints via Infrared Thermography	44
Introduction	44
Background	45
Material and Methods	45
Results and Discussion	46
Conclusions and Future Work	47
Chapter 7 Effect of Loading Frequency on Fatigue Behavior of Additively Manufactured Short Fiber Thermoplastics via Infrared Thermography	48
Introduction	48
Materials and Methods	49
Materials and Characterization	49
Quasi‑Static Tensile Testing	49
Fatigue Testing	50
Results and Discussion	52
Comparison of Pure ABS with C/ABS	52
Effect of Loading Frequency on the Fatigue Limit	53
Effect of Fiber Orientation on the Fatigue Limit	54
Conclusions and Future Work	55
Chapter 8 Analytical Generalization of the T and A-theta Integrals for the Study of Cracking in Three-dimensional Orthotropic Medium	56
Introduction	56
Background	57
Analysis	58
Conclusion	60
Back Cover	62

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