Residual Stress, Thermomechanics & Infrared Imaging, Hybrid Techniques and Inverse Problems, Volume 7

Chapter1: Comparison between 0D and 1D Heat Source Reconstruction for Fatigue Characterization.- Chapter2: Analysis of the Thermomechanical Response of Granular Materials by Infrared Thermography.- Chapter3: Inverse Identification of the Loading Applied by a Tire on a Landing Gear Wheel.- Chapter4: Fatigue Properties Assessment of API 5L Gr. B Pipeline Steel using Infrared Thermography.- Chapter5: Determination of Constitutive Parameters in Inverse Problem using Thermoelastic Data.- Chapter6: Experimental Investigation of Emissivty Influence to Obtain Thermal Field by Near Infrared Thermography.- Chapter7: Experimental Validation of the Energy Balance Equation in the Presence of Acoustic Emission.- Chapter8: Model Based Inversion for Pulse Thermography.- Chapter9: Experimentally Enhanced Computations: Calibration Methodology for an Anisotropic Metal, Part I – Traditional Approach.- Chapter10: Mechanical Response and Energy Stored During Deformation of Crystallizing TPU.- Chapter11: Measuring Strain-induced Crystallinity in Rubbers from IR Thermography.- Chapter12: Mechanical and Thermomechanical Characterization of Different Leathers.- Chapter13: Experimentally Enhanced Computations: Calibration Methodology for an Anisotropic Metal, Part II – Novel Approach/ Validation.- Chapter14: Multi-instrumentation of Very High Temperature Tests.- Chapter15: Detection of Damage during Quasi-Static Loading of a Single Stringer Panel using Passive Thermography and Acoustic Emission.- Chapter16: The Effect of Chamber Temperature on Residual Stresses of FDM Parts.- Chapter17: System Identification of Structures with Incomplete Modal Information.- Chapter18: Towards Integrating Imaging Techniques to Assess Manufacturing Features and In-service Damage in Composite Components.- Chapter19: Image-based Stress Field Reconstruction in Complex Media.- Chapter20: Infrared Thermography for Material Characterization at Intermediate Strain Rates.- Chapter21: Evaluation of Fatigue Damage in Short Carbon Fiber Reinforced Plastics Based on Thermoelastic Stress and Phase Analysis.- Chapter22: Thermoelastic Stress Field Investigation of a Multiply-Loaded Disk.- Chapter23: Fatigue Limit Estimation for Single Bead-on-plate weld Based on Dissipated Energy Measurement.- Chapter24: Thermoelastic Measurement Techniques Enabled by Self-Reference.