TY - BOOK ID - 145165624 TI - Selected Papers from Experimental Stress Analysis 2020 AU - Kocich, Radim AU - Kunčická, Lenka PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Technology: general issues KW - History of engineering & technology KW - residual stresses KW - neutron diffraction KW - three axis setting KW - high resolution KW - bent crystal monochromator KW - bent crystal analyzer KW - stainless steel 316L KW - additive manufacturing KW - multiaxial loading KW - plasticity KW - digital image correlation method KW - hill yield criterion KW - isotropic hardening KW - finite element method (FEM) KW - straightening process KW - three-point bending KW - FEM KW - control strategy KW - billet straightening KW - multiaxial fatigue KW - high-cycle fatigue KW - multiaxial fatigue experiments KW - S-N curve approximation KW - laser welding KW - pressure vessel steel KW - microstructure KW - X-ray and neutron diffraction KW - high-cycle fatigue tests KW - wearable KW - flexible KW - structure KW - stiffness KW - biomedical KW - mechanics KW - simulation KW - pattern KW - 3D print KW - PA12 KW - tram KW - pedestrian KW - crash KW - windshield model KW - HIC KW - hole-drilling KW - PhotoStress KW - digital image correlation KW - experimental analysis KW - finite element analysis KW - composite KW - thermoplastic KW - interlaminar strength KW - polyphenylensulfid KW - polyetheretherketone KW - polyaryletherketone KW - curved beam KW - NDE KW - infrared thermography KW - Infrared Nondestructive Testing KW - CFRP KW - Anand material model KW - material parameters KW - ABS-M30 KW - indentation test KW - genetic algorithm KW - acoustic emission KW - CFRP composite tube KW - unsupervised learning approach KW - failure mechanism KW - residual stresses KW - neutron diffraction KW - three axis setting KW - high resolution KW - bent crystal monochromator KW - bent crystal analyzer KW - stainless steel 316L KW - additive manufacturing KW - multiaxial loading KW - plasticity KW - digital image correlation method KW - hill yield criterion KW - isotropic hardening KW - finite element method (FEM) KW - straightening process KW - three-point bending KW - FEM KW - control strategy KW - billet straightening KW - multiaxial fatigue KW - high-cycle fatigue KW - multiaxial fatigue experiments KW - S-N curve approximation KW - laser welding KW - pressure vessel steel KW - microstructure KW - X-ray and neutron diffraction KW - high-cycle fatigue tests KW - wearable KW - flexible KW - structure KW - stiffness KW - biomedical KW - mechanics KW - simulation KW - pattern KW - 3D print KW - PA12 KW - tram KW - pedestrian KW - crash KW - windshield model KW - HIC KW - hole-drilling KW - PhotoStress KW - digital image correlation KW - experimental analysis KW - finite element analysis KW - composite KW - thermoplastic KW - interlaminar strength KW - polyphenylensulfid KW - polyetheretherketone KW - polyaryletherketone KW - curved beam KW - NDE KW - infrared thermography KW - Infrared Nondestructive Testing KW - CFRP KW - Anand material model KW - material parameters KW - ABS-M30 KW - indentation test KW - genetic algorithm KW - acoustic emission KW - CFRP composite tube KW - unsupervised learning approach KW - failure mechanism UR - https://www.unicat.be/uniCat?func=search&query=sysid:145165624 AB - This Special Issue consists of selected papers from the Experimental Stress Analysis 2020 conference. Experimental Stress Analysis 2020 was organized with the support of the Czech Society for Mechanics, Expert Group of Experimental Mechanics, and was, for this particular year, held online in 19–22 October 2020. The objectives of the conference included identification of current situation, sharing professional experience and knowledge, discussing new theoretical and practical findings, and the establishment and strengthening of relationships between universities, companies, and scientists from the field of experimental mechanics in mechanical and civil engineering. The topics of the conference were focused on experimental research on materials and structures subjected to mechanical, thermal–mechanical, and dynamic loading, including damage, fatigue, and fracture analyses. The selected papers deal with top-level contemporary phenomena, such as modern durable materials, numerical modeling and simulations, and innovative non-destructive materials’ testing. ER -