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Contracting out --- Letting of contracts --- Evaluation. --- Government policy --- Ideal Fastener Corporation.
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Contracting out --- Letting of contracts --- Evaluation. --- Government policy --- Ideal Fastener Corporation.
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Handen --- Handtrauma --- Spalken --- Anatomie --- Kinesiologie --- Hand --- Arm --- Splints (Surgery) --- Orthopedic Fixation Devices --- Wounds and Injuries --- Orthopedic Equipment --- Diseases --- Surgical Fixation Devices --- Surgical Equipment --- Equipment and Supplies --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Splints --- Arm Injuries --- Hand Injuries --- Surgery & Anesthesiology --- Health & Biological Sciences --- Surgery - General and By Type --- Injuries, Hand --- Hand Injury --- Injury, Hand --- Injuries, Arm --- Arm Injury --- Injury, Arm --- Dynamic Orthoses --- Dynamic Splint --- Dynamic Splinting --- Dynamic Splints --- Static Orthoses --- Static Splint --- Static Splinting --- Static Splints --- Dynamic Splintings --- Splint --- Splint, Dynamic --- Splint, Static --- Splinting, Dynamic --- Splinting, Static --- Splints, Dynamic --- Splints, Static --- Static Orthose --- Device, Medical --- Devices, Medical --- Equipment --- Inventories --- Medical Device --- Supplies --- Apparatus and Instruments --- Devices --- Medical Devices --- Device --- Instruments and Apparatus --- Inventory --- Supplies and Equipment --- Equipment, Surgical --- Equipments, Surgical --- Surgical Equipments --- Surgical Fasteners --- Device, Surgical Fixation --- Devices, Surgical Fixation --- Fastener, Surgical --- Fasteners, Surgical --- Fixation Device, Surgical --- Fixation Devices, Surgical --- Surgical Fastener --- Surgical Fixation Device --- Equipment, Orthopedic --- Equipments, Orthopedic --- Orthopedic Equipments --- Orthopedics --- Injuries and Wounds --- Injuries, Wounds --- Research-Related Injuries --- Wounds --- Wounds and Injury --- Wounds, Injury --- Injuries --- Trauma --- Injuries, Research-Related --- Injury --- Injury and Wounds --- Injury, Research-Related --- Research Related Injuries --- Research-Related Injury --- Traumas --- Wound --- First Aid --- Traumatology --- Device, Orthopedic Fixation --- Devices, Orthopedic Fixation --- Fixation Device, Orthopedic --- Fixation Devices, Orthopedic --- Orthopedic Fixation Device --- Fracture Fixation --- Immobilization --- Orthopedic apparatus --- Wounds and injuries --- injuries --- instrumentation --- Spalk (fixeren) --- Tekenen --- Letsel --- Orthese --- Revalidatie --- Preventie --- Sport
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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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An exciting debut collection of original poems and translations from Old EnglishAn exciting debut collection of original poems and translations from Old English, The Unstill Ones takes readers into a timeless, shadow-filled world where new poems sound ancient, and ancient poems sound new. Award-winning scholar-poet Miller Oberman's startlingly fresh translations of well-known and less familiar Old English poems often move between archaic and contemporary diction, while his original poems frequently draw on a compressed, tactile Old English lexicon and the powerful formal qualities of medieval verse.Shaped by Oberman's scholarly training in poetry, medieval language, translation, and queer theory, these remarkable poems explore sites of damage and transformation, both new and ancient. "Wulf and Eadwacer," a radical new translation of a thousand-year-old lyric, merges scholarly practice with a queer- and feminist-inspired rendering, while original poems such as "On Trans" draw lyrical connections between multiple processes of change and boundary crossing, from translation to transgender identity. Richly combining scholarly rigor, a finely tuned contemporary aesthetic, and an inventiveness that springs from a deep knowledge of the earliest forms of English, The Unstill Ones marks the emergence of a major new voice in poetry.
English poetry --- American poetry --- 450-2099 --- Against a Dwarf. --- Bald's Leechbook. --- Barley. --- Black Shawl. --- Boat. --- Bobber (motorcycle). --- Bread. --- Bridle. --- Chainsaw. --- Cherry blossom. --- Clothing. --- Coal. --- Coat (animal). --- Cockroach. --- Coffin. --- Cupboard. --- Denise Levertov. --- Density. --- Dirt. --- Dry rot. --- East Danes. --- Ermine (heraldry). --- Evaporation. --- Finger. --- Fishing. --- Flake (fish). --- Foot (unit). --- Grief. --- Ground (electricity). --- Hand. --- Hearth. --- Heat. --- Hoof. --- Ink. --- Jaw. --- Jellyfish. --- John Berryman. --- Kitchen stove. --- Lacnunga. --- Laughter. --- Leather. --- Length. --- Limb (anatomy). --- Lumber. --- Middle-earth. --- Moth. --- Mouth. --- Nail (fastener). --- Oil painting. --- Old Book (ghost). --- Old English literature. --- Old English rune poem. --- Orange blossom. --- Parapet. --- Plank (wood). --- Poetry. --- Prison uniform. --- Quill. --- Round steak. --- Sailing. --- Seaweed. --- Sewing. --- Shard (role-playing game). --- Ship. --- Shot (pellet). --- Sock. --- Sod. --- Soil. --- Spear. --- Steak. --- Steam. --- Stephen Crane. --- Strip mall. --- Swathe. --- The Shard. --- The Wife's Lament. --- Tool. --- Tooth. --- Torso. --- Towel. --- Trench coat. --- Trombone. --- Trowel. --- Turning. --- Vein (geology). --- Violet (color). --- Wafer (electronics). --- Washer (hardware). --- Weather. --- Wheat. --- Whisky. --- Window box. --- Wine. --- With Child. --- Wolf Brother. --- Woman. --- Wound. --- Wulf and Eadwacer. --- Wulf. --- Yolk.
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The advancement in manufacturing technology and scientific research has improved the development of enhanced composite materials with tailored properties depending on their design requirements in many engineering fields, as well as in thermal and energy management. Some representative examples of advanced materials in many smart applications and complex structures rely on laminated composites, functionally graded materials (FGMs), and carbon-based constituents, primarily carbon nanotubes (CNTs), and graphene sheets or nanoplatelets, because of their remarkable mechanical properties, electrical conductivity and high permeability. For such materials, experimental tests usually require a large economical effort because of the complex nature of each constituent, together with many environmental, geometrical and or mechanical uncertainties of non-conventional specimens. At the same time, the theoretical and/or computational approaches represent a valid alternative for designing complex manufacts with more flexibility. In such a context, the development of advanced theoretical and computational models for composite materials and structures is a subject of active research, as explored here for a large variety of structural members, involving the static, dynamic, buckling, and damage/fracturing problems at different scales.
Technology: general issues --- History of engineering & technology --- prestressed concrete cylinder pipe --- external prestressed steel strands --- theoretical study --- wire-breakage --- first-principles calculation --- Heusler compounds --- gapless half metals --- spin gapless semiconductor --- bi-directional functionally graded --- bolotin scheme --- dynamic stability --- elastic foundation --- porosity --- two-axis four-gimbal --- electro-optical pod --- dynamics modeling --- coarse–fine composite --- Carbon-fiber-reinforced plastics (CFRPs) --- fastener --- arc --- Joule heat --- finite element analysis (FEA) --- piezoelectric effect --- bimodular model --- functionally-graded materials --- cantilever --- vibration --- functional reinforcement --- graphene nanoplatelets --- higher-order shear deformable laminated beams --- nanocomposites --- nonlinear free vibration --- sandwich beams --- fractional calculus --- Riemann-Liouville fractional derivative --- viscoelasticity --- pipe flow --- fractional Maxwell model --- fractional Zener model --- fractional Burgers model --- Riemann–Liouville fractional derivative --- fractional Kelvin–Voigt model --- fractional Poynting–Thomson model --- curved sandwich nanobeams --- nonlocal strain gradient theory --- quasi-3D higher-order shear theory --- thermal-buckling --- FG-GPL --- GDQ --- heat transfer equation --- higher-order shear deformation theory --- buckling --- FE-GDQ --- functionally graded materials --- 3D elasticity --- 3D shell model --- steady-state hygro-elastic analysis --- Fick moisture diffusion equation --- moisture content profile --- layer-wise approach --- n/a --- coarse-fine composite --- fractional Kelvin-Voigt model --- fractional Poynting-Thomson model
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The advancement in manufacturing technology and scientific research has improved the development of enhanced composite materials with tailored properties depending on their design requirements in many engineering fields, as well as in thermal and energy management. Some representative examples of advanced materials in many smart applications and complex structures rely on laminated composites, functionally graded materials (FGMs), and carbon-based constituents, primarily carbon nanotubes (CNTs), and graphene sheets or nanoplatelets, because of their remarkable mechanical properties, electrical conductivity and high permeability. For such materials, experimental tests usually require a large economical effort because of the complex nature of each constituent, together with many environmental, geometrical and or mechanical uncertainties of non-conventional specimens. At the same time, the theoretical and/or computational approaches represent a valid alternative for designing complex manufacts with more flexibility. In such a context, the development of advanced theoretical and computational models for composite materials and structures is a subject of active research, as explored here for a large variety of structural members, involving the static, dynamic, buckling, and damage/fracturing problems at different scales.
Technology: general issues --- History of engineering & technology --- prestressed concrete cylinder pipe --- external prestressed steel strands --- theoretical study --- wire-breakage --- first-principles calculation --- Heusler compounds --- gapless half metals --- spin gapless semiconductor --- bi-directional functionally graded --- bolotin scheme --- dynamic stability --- elastic foundation --- porosity --- two-axis four-gimbal --- electro-optical pod --- dynamics modeling --- coarse–fine composite --- Carbon-fiber-reinforced plastics (CFRPs) --- fastener --- arc --- Joule heat --- finite element analysis (FEA) --- piezoelectric effect --- bimodular model --- functionally-graded materials --- cantilever --- vibration --- functional reinforcement --- graphene nanoplatelets --- higher-order shear deformable laminated beams --- nanocomposites --- nonlinear free vibration --- sandwich beams --- fractional calculus --- Riemann-Liouville fractional derivative --- viscoelasticity --- pipe flow --- fractional Maxwell model --- fractional Zener model --- fractional Burgers model --- Riemann–Liouville fractional derivative --- fractional Kelvin–Voigt model --- fractional Poynting–Thomson model --- curved sandwich nanobeams --- nonlocal strain gradient theory --- quasi-3D higher-order shear theory --- thermal-buckling --- FG-GPL --- GDQ --- heat transfer equation --- higher-order shear deformation theory --- buckling --- FE-GDQ --- functionally graded materials --- 3D elasticity --- 3D shell model --- steady-state hygro-elastic analysis --- Fick moisture diffusion equation --- moisture content profile --- layer-wise approach --- n/a --- coarse-fine composite --- fractional Kelvin-Voigt model --- fractional Poynting-Thomson model
Choose an application
The advancement in manufacturing technology and scientific research has improved the development of enhanced composite materials with tailored properties depending on their design requirements in many engineering fields, as well as in thermal and energy management. Some representative examples of advanced materials in many smart applications and complex structures rely on laminated composites, functionally graded materials (FGMs), and carbon-based constituents, primarily carbon nanotubes (CNTs), and graphene sheets or nanoplatelets, because of their remarkable mechanical properties, electrical conductivity and high permeability. For such materials, experimental tests usually require a large economical effort because of the complex nature of each constituent, together with many environmental, geometrical and or mechanical uncertainties of non-conventional specimens. At the same time, the theoretical and/or computational approaches represent a valid alternative for designing complex manufacts with more flexibility. In such a context, the development of advanced theoretical and computational models for composite materials and structures is a subject of active research, as explored here for a large variety of structural members, involving the static, dynamic, buckling, and damage/fracturing problems at different scales.
prestressed concrete cylinder pipe --- external prestressed steel strands --- theoretical study --- wire-breakage --- first-principles calculation --- Heusler compounds --- gapless half metals --- spin gapless semiconductor --- bi-directional functionally graded --- bolotin scheme --- dynamic stability --- elastic foundation --- porosity --- two-axis four-gimbal --- electro-optical pod --- dynamics modeling --- coarse–fine composite --- Carbon-fiber-reinforced plastics (CFRPs) --- fastener --- arc --- Joule heat --- finite element analysis (FEA) --- piezoelectric effect --- bimodular model --- functionally-graded materials --- cantilever --- vibration --- functional reinforcement --- graphene nanoplatelets --- higher-order shear deformable laminated beams --- nanocomposites --- nonlinear free vibration --- sandwich beams --- fractional calculus --- Riemann-Liouville fractional derivative --- viscoelasticity --- pipe flow --- fractional Maxwell model --- fractional Zener model --- fractional Burgers model --- Riemann–Liouville fractional derivative --- fractional Kelvin–Voigt model --- fractional Poynting–Thomson model --- curved sandwich nanobeams --- nonlocal strain gradient theory --- quasi-3D higher-order shear theory --- thermal-buckling --- FG-GPL --- GDQ --- heat transfer equation --- higher-order shear deformation theory --- buckling --- FE-GDQ --- functionally graded materials --- 3D elasticity --- 3D shell model --- steady-state hygro-elastic analysis --- Fick moisture diffusion equation --- moisture content profile --- layer-wise approach --- n/a --- coarse-fine composite --- fractional Kelvin-Voigt model --- fractional Poynting-Thomson model
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