Titlebook: Residual Stress, Thermomechanics & Infrared Imaging, Hybrid Techniques and Inverse Problems, Volume ; Proceedings of the 2 Antonio Baldi,Jo

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A Spatio-Temporal Approach for iDIC-Residual Stress Measurement,s a variant of the classical Digital Image Correlation where the “standard” displacement functions are replaced by problem-specific ones. By this simple modification, stress components become the unknowns of the problem, thus allowing a single-pass analysis. However, implementation of the Integral M

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Detection of Early Stage Material Damage Using Thermophysical Properties,mer composites commonly used for aerospace applications. The goal is to identify thermal properties that may serve as viable indicators of early stage material damage during structural health monitoring (SHM). A series of fatigue tests were conducted on multilayer composite specimens with peak stres

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Influence of Printing Constraints on Residual Stresses of FDM Parts,model. In this technique, the part is built as a layer-by-layer deposition of a feedstock wire. This typology of deposition has many advantages but produces rapid heating and cooling cycles of the feedstock material that introduces residual stresses in the part during the build-up. Consequently, war

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How Does Cristallizable Rubber Use Mechanical Energy to Deform?,ergy without converting it into heat. Hence, the whole dissipated mechanical energy corresponds to energy used by the material to change its microstructure. The demonstration that NR is able to dissipate mechanical energy without converting it into heat explains its ability to resist the crack growth and the fatigue loading.

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Experimental Stress Analysis of Unsymmetrical, Irregularly-Shaped Structure Containing an Arbitrarirregularly-shaped hole. The proposed method simultaneously smooths the measured data, separates the stress components, and evaluates the individual stress components full-field, including at the boundary of the hole (location of highest tensile stress).