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eebo-0113
Women --- Hic mulier --- England --- Social life and customs
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Fracture, fatigue, and other subcritical processes, such as creep crack growth or stress corrosion cracking, present numerous open issues from both scientific and industrial points of view. These phenomena are of special interest in industrial and civil metallic structures, such as pipes, vessels, machinery, aircrafts, ship hulls, and bridges, given that their failure may imply catastrophic consequences for human life, the natural environment, and/or the economy. Moreover, an adequate management of their operational life, defining suitable inspection periods, repairs, or replacements, requires their safety or unsafety conditions to be defined. The analysis of these technological challenges requires accurate comprehensive assessment tools based on solid theoretical foundations as well as structural integrity assessment standards or procedures incorporating such tools into industrial practice.
n/a --- reuse --- microstructure --- fatigue crack growth --- micromechanisms --- weld joint --- FFM --- slow strain rate tensile test --- fracture --- orthotropic steel bridge deck --- fatigue --- three-point bending fatigue --- EMC --- notch effect --- thermal desorption spectroscopy --- synchrotron radiation --- tube specimen with hole --- critical distance --- Inconel 690 tube --- fatigue test --- failure assessment diagram (FAD) --- alloy steel --- X-ray techniques --- overload --- aluminium plates --- fatigue strength --- fastener --- high strength low alloy steels (HSLA) --- internal fatigue fracture --- ?CT imaging --- hydrogen induced cracking (HIC) --- notch --- rotating bending --- local strain --- aluminum foam sandwich --- structural steel --- surface defect --- compressive residual stress --- blunt V-notches --- cathodic polarization --- needle peening --- semi-elliptical crack --- fatigue life --- hydrogen-induced delayed fracture --- fatigue design curve --- subcritical propagation --- cathodic polarization or cathodic charge (CC) --- hydrogen embrittlement --- aircraft --- fatigue limit --- environmentally assisted cracking --- ductile failure --- mode I loading --- cathodic protection (CP) --- peel strength --- hot-press-formed steel --- crack initiation --- retardation --- theory of critical distances --- welded joint
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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.
Technology: general issues --- History of engineering & technology --- residual stresses --- neutron diffraction --- three axis setting --- high resolution --- bent crystal monochromator --- bent crystal analyzer --- stainless steel 316L --- additive manufacturing --- multiaxial loading --- plasticity --- digital image correlation method --- hill yield criterion --- isotropic hardening --- finite element method (FEM) --- straightening process --- three-point bending --- FEM --- control strategy --- billet straightening --- multiaxial fatigue --- high-cycle fatigue --- multiaxial fatigue experiments --- S-N curve approximation --- laser welding --- pressure vessel steel --- microstructure --- X-ray and neutron diffraction --- high-cycle fatigue tests --- wearable --- flexible --- structure --- stiffness --- biomedical --- mechanics --- simulation --- pattern --- 3D print --- PA12 --- tram --- pedestrian --- crash --- windshield model --- HIC --- hole-drilling --- PhotoStress --- digital image correlation --- experimental analysis --- finite element analysis --- composite --- thermoplastic --- interlaminar strength --- polyphenylensulfid --- polyetheretherketone --- polyaryletherketone --- curved beam --- NDE --- infrared thermography --- Infrared Nondestructive Testing --- CFRP --- Anand material model --- material parameters --- ABS-M30 --- indentation test --- genetic algorithm --- acoustic emission --- CFRP composite tube --- unsupervised learning approach --- failure mechanism --- n/a
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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.
residual stresses --- neutron diffraction --- three axis setting --- high resolution --- bent crystal monochromator --- bent crystal analyzer --- stainless steel 316L --- additive manufacturing --- multiaxial loading --- plasticity --- digital image correlation method --- hill yield criterion --- isotropic hardening --- finite element method (FEM) --- straightening process --- three-point bending --- FEM --- control strategy --- billet straightening --- multiaxial fatigue --- high-cycle fatigue --- multiaxial fatigue experiments --- S-N curve approximation --- laser welding --- pressure vessel steel --- microstructure --- X-ray and neutron diffraction --- high-cycle fatigue tests --- wearable --- flexible --- structure --- stiffness --- biomedical --- mechanics --- simulation --- pattern --- 3D print --- PA12 --- tram --- pedestrian --- crash --- windshield model --- HIC --- hole-drilling --- PhotoStress --- digital image correlation --- experimental analysis --- finite element analysis --- composite --- thermoplastic --- interlaminar strength --- polyphenylensulfid --- polyetheretherketone --- polyaryletherketone --- curved beam --- NDE --- infrared thermography --- Infrared Nondestructive Testing --- CFRP --- Anand material model --- material parameters --- ABS-M30 --- indentation test --- genetic algorithm --- acoustic emission --- CFRP composite tube --- unsupervised learning approach --- failure mechanism --- n/a
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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.
Technology: general issues --- History of engineering & technology --- residual stresses --- neutron diffraction --- three axis setting --- high resolution --- bent crystal monochromator --- bent crystal analyzer --- stainless steel 316L --- additive manufacturing --- multiaxial loading --- plasticity --- digital image correlation method --- hill yield criterion --- isotropic hardening --- finite element method (FEM) --- straightening process --- three-point bending --- FEM --- control strategy --- billet straightening --- multiaxial fatigue --- high-cycle fatigue --- multiaxial fatigue experiments --- S-N curve approximation --- laser welding --- pressure vessel steel --- microstructure --- X-ray and neutron diffraction --- high-cycle fatigue tests --- wearable --- flexible --- structure --- stiffness --- biomedical --- mechanics --- simulation --- pattern --- 3D print --- PA12 --- tram --- pedestrian --- crash --- windshield model --- HIC --- hole-drilling --- PhotoStress --- digital image correlation --- experimental analysis --- finite element analysis --- composite --- thermoplastic --- interlaminar strength --- polyphenylensulfid --- polyetheretherketone --- polyaryletherketone --- curved beam --- NDE --- infrared thermography --- Infrared Nondestructive Testing --- CFRP --- Anand material model --- material parameters --- ABS-M30 --- indentation test --- genetic algorithm --- acoustic emission --- CFRP composite tube --- unsupervised learning approach --- failure mechanism --- residual stresses --- neutron diffraction --- three axis setting --- high resolution --- bent crystal monochromator --- bent crystal analyzer --- stainless steel 316L --- additive manufacturing --- multiaxial loading --- plasticity --- digital image correlation method --- hill yield criterion --- isotropic hardening --- finite element method (FEM) --- straightening process --- three-point bending --- FEM --- control strategy --- billet straightening --- multiaxial fatigue --- high-cycle fatigue --- multiaxial fatigue experiments --- S-N curve approximation --- laser welding --- pressure vessel steel --- microstructure --- X-ray and neutron diffraction --- high-cycle fatigue tests --- wearable --- flexible --- structure --- stiffness --- biomedical --- mechanics --- simulation --- pattern --- 3D print --- PA12 --- tram --- pedestrian --- crash --- windshield model --- HIC --- hole-drilling --- PhotoStress --- digital image correlation --- experimental analysis --- finite element analysis --- composite --- thermoplastic --- interlaminar strength --- polyphenylensulfid --- polyetheretherketone --- polyaryletherketone --- curved beam --- NDE --- infrared thermography --- Infrared Nondestructive Testing --- CFRP --- Anand material model --- material parameters --- ABS-M30 --- indentation test --- genetic algorithm --- acoustic emission --- CFRP composite tube --- unsupervised learning approach --- failure mechanism
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