Residual Stress, Thermomechanics & Infrared Imaging and Inverse Problems, Volume 6: Proceedings of the 2019 Annual Conference on Experimental and ... Society for Experimental Mechanics Series)

Preface
Contents
Chapter 1: Regularization Uncertainty in Slitting Residual Stress Measurement
	Introduction
	Methods
		Slitting Method Overview
		Slitting Numerical Experiment
	Results
		Numerical Experiment
	Discussion
	Summary
	References
Chapter 2: Walkthrough and History of the Virtual Fields Method
	Introduction
	The First Beginnings
	From Bending Plate Problems to Other Applications
		From Elasticity to more Complex Constitutive Equations
		Virtual Fields Are Smart Filters
		Optimizing the Virtual Fields for a Robust Identification
		Mastering the Boundary Conditions
		Considering the Specimen Itself as a Load Cell
		Making the Characterization of Heterogeneous Materials Easier
		Measuring the Force Distribution Applied on the Specimen
	Current State of Play
	Conclusion
	References
Chapter 3: Low-Cost Thermoelastic Stress Analysis
	Introduction
	Methodology and Results
	Discussion and Conclusion
	References
Chapter 4: The Effect of Residual Stress on Aluminum Strength Using Thermoelastic Stress Analysis
	Introduction
	Thermoelastic Experiment and Results
	Discussions
	Conclusion
	References
Chapter 5: Calibration of Anisotropic Plasticity Models with an Optimized Heterogeneous Test and the Virtual Fields Method
	Introduction
	The Virtual Fields Method
	The Butterfly Test
	Manually Defined Virtual Fields
	Identification of Material Parameters: Results and Analysis
	Conclusions
	References
Chapter 6: One-Dimensional Heat Source Reconstruction Applied to Phase Transforming Superelastic Ni-Ti Wire
	Introduction
	Methodology for Heat Source Reconstruction
	Experimental Set-Up
	Analysis
	Conclusion
	References
Chapter 7: Coupled NIRT/3D-DIC for a FEMU Identification of the Thermo-Mechanical Behavior of Zr-4 Claddings Under Simulated Reactivity Initiated Accident
	Introduction
	Creep Ballooning Tests Under Fast Thermal Transients
		Experimental Setup
		Experimental Procedure
	Optical Full Field Acqusition
		Kinematic Full Field Measurements by Stereo-Correlation
		Thermal Full Field Measurements by Near Infrared Thermography (NIRT)
			Identification Procedure
			Weak Coupling with the 3D-DIC
	Conclusion
	References
Chapter 8: Residual Stresses at Critical Locations in Additively-Manufactured Components
	Introduction
	Background
	Results
	Conclusion
	References
Chapter 9: Identification of Constitutive Parameters Governing the Hyperelastic Response of Rubber by Using Full-Field Measurement and the Virtual Fields Method
	Introduction
	Theoretical Background
	Hyperelasticity
	Choice of the Virtual Displacement Fields
		Random Virtual Displacement Fields
		Sensitivity-Based Virtual Displacement Fields
	Experiments
	Results
		Experimental Kinematic Fields
		Identification Results and Comparison
	Conclusions
	References
Chapter 10: Intermethod Comparison and Evaluation of Near Surface Residual Stress in Aluminum Parts Subject to Various Milling Parameters
	Introduction
	Methods
		Sample Description
		Measurement Layout
		Residual Stress Measurement Technique
			Hole Drilling
			Slotting
			X-ray Diffraction
	Results
	Conclusion
	References
Chapter 11: Inversion of Residual Stresses in Silicon Wafer from Surface Deflection Measurements
	Introduction
	Residual Stress Evaluation Method
	Verification of Proposed Method
	Residual Stress by Proposed Method
	Discussion
	References
Chapter 12: Evaluating the Coefficient of Thermal Expansion of Electronic Board Using the Virtual Fields Method
	Introduction
	Methods
		Basic Principle of the Virtual Fields Method
		Identification of the Coefficient of Thermal Expansion
	Experiment
		Specimen
		Experimental and Analysis Procedure
	Results
	Conclusions
	References
Chapter 13: Identification of Constitutive Parameters from Full Thermal and Kinematic Fields: Application to Hyperelasticity
	Introduction
	Heat Source Approach
		Experimental Setup
	Results and Discussions
	Conclusion
	References
Chapter 14: Calorific Analysis of a Granular System Made in Shape Memory Alloy
	Introduction
	Experimental Setup
	Finite Element Simulations
	Experimental Results
	Demonstrator of Elastocaloric Device
	Conclusion
	References
Chapter 15: Dynamic VFM to Identify Viscoplastic Parameters. Analysis of Impact Tests on Titanium Alloy
	Introduction
	Image-Based Intertial Impact Tests
	Viscoplastic Spectra Covered By the IBII Tests
	Conclusion
	References
Chapter 16: Test Design for Identification from Full-Field Measurements: A Concise Review
	Introduction
	The Early Attempts
	Test Design and Optimization
		Designs Based on the Strain State
		Designs Based on Identification Quality
		Designs Based on Full Identification Chain Simulation
	Conclusion and Future Work
	References
Chapter 17: Stress Determination for Granular Materials Using TSA: An Inverse Approach
	Introduction
	Experimental Test
	Background About Flamant Solutions
	Application to the 2D Periodic Granular System
	Conclusion
	References
Chapter 18: Evaluation of Fatigue Crack Growth Behavior and Effect of Repair Work Based on Thermoelastic Stress Analysis for Steel Bridge Members
	Introduction
	Stress Intensity Factor Evaluation Based on TSA
	Experimental Study for Laboratory Specimen
	Experimental Study for Actual Steel Bridge
	References
Chapter 19: Analysis of Deformations in Crush Tests of Lithium Ion Battery Cells
	Introduction
	Background on Li-Ion Batteries
	Mechanical Abuse Tests
	Tested Battery
	Experimental Results
	Conclusion
	References
Chapter 20: In-situ Thermal Monitoring of Printed Components During Rapid Prototyping by Fused Deposition Modeling
	Introduction
	Methodology
		General Plan and Scheme of This Study
		Thermography and Infrared Camera
		Thermal Modeling
		Experimental Set-up and Equipment
	Results and Discussion
		IR Camera Calibration and Analysis
		Estimation of the Temperature Distribution Using the Estimated Emissivity in IR Camera
		Comparison Between Numerical Estimation and IR Measurements
	Conclusions and Future Work
	References
Chapter 21: Development of an Inverse Identification Method for Identifying Constitutive Parameters by Metaheuristic Optimization Algorithm: Application to Hyperelastic Materials
	Introduction
	Experimental Setup
	Numerical Model
	Metaheuristic Optimization Strategy
	Results and Discussion
	Conclusions
	References
Chapter 22: MIMO Input Derivations, Optimizing Input Force Against Output Accuracy
	Introduction
	Results
	Conclusions
	Reference
Chapter 23: Evaluation of Sensitivity-Based Virtual Fields for Non-Linear Parameter Identification Including DIC Filtering Effects
	Theoretical Development
	Synthetic Images
	Case Study
	Impact of DIC Filtering
	Conclusion
	References
Chapter 24: Identification of Inhomogeneous Plastic Constitutive Models of Friction Stir Welded Aluminum Alloy Sheets Using Virtual Fields Method
	Introduction
	Methodology
	Material Model
	Finite Element Simulation
	Result
	Conclusion
	References
Chapter 25: Accuracy Improvement of Thermoelastic Stress and Dissipation Energy Measurement by Motion Compensation with Optical-Infrared Synchronous Measurement
	Introduction
	Apparent Temperature Change
	The Motion Compensation System with the Optical-Infrared Synchronous Measurement
	Experiments
	Conclusion
	References