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200 10$aHydrogen in engineering metallic materials $efrom atomic-level interactions to mechanical properties /$fV. G. Gavrili?u?k, V. M. Shyvaniuk and S. M. Teus
205   $a1st edition.
210  1$aCham, Switzerland :$cSpringer,$d[2022]
210  4$d©2022
215   $a1 online resource (298 pages) $c(XI, 290 p. 154 illus., 11 illus. in color)
311 08$aPrint version: Gavriljuk, V. G. Hydrogen in Engineering Metallic Materials Cham : Springer International Publishing AG,c2022 9783030985493 
320   $aIncludes bibliographical references.
327   $aIntro -- Preface -- Contents -- 1 Atomic Interactions -- 1.1 Hydrogen Solubility -- 1.2 Hydrogen Location in Crystal Lattice -- 1.3 Atomic Complexes and Snoek-Like Relaxation -- 1.4 H-H Interaction -- 1.5 Hydrogen Effect on the Electron Structure: Electron Exchange -- 1.5.1 Hydrogen in Iron -- 1.5.2 Hydrogen in Nickel -- 1.5.3 Hydrogen in Titanium -- 1.5.4 Concluding Remarks -- References -- 2 Crystal Lattice Defects -- 2.1 Hydrogen-Induced Vacancies -- 2.1.1 Hydrogen-Vacancy Interaction in Metals -- 2.1.2 Hydrogen-Induced Vacancies in Austenitic Steels -- 2.2 Interaction Between Hydrogen Atoms and Dislocations -- 2.2.1 Stacking Fault Energy -- 2.2.2 Hydrogen Softening-Hardening -- 2.3 Hydrogen Effect on Mobility of Grain Boundaries -- References -- 3 Diffusion -- 3.1 Migration Paths and Enthalpies -- 3.1.1 H in Iron -- 3.1.2 H in Nickel -- 3.1.3 H in Titanium and Its Alloys -- 3.2 Hydrogen Trapping by Crystal Lattice Defects -- 3.2.1 H in bcc Iron and Plain Carbon Steels -- 3.2.2 H in Austenitic Steels -- 3.2.3 H in Nickel -- 3.2.4 H in Titanium Alloys -- 3.3 Hydrogen Transport by Dislocations -- 3.4 Hydrogen Migration Along Grain Boundaries -- 3.4.1 Grain Boundary Diffusion of Interstitial and Substitution Solutes -- 3.4.2 Thermodynamic Simulation of Hydrogen Atom Diffusion -- 3.4.3 A Mechanism for Enhanced Hydrogen Flux Along Grain Boundaries -- 3.5 Hydrogen Effect on Metallic Atom Diffusion in the Crystal Lattice and Short-Range Atomic Order -- References -- 4 Phase Transformations -- 4.1 Hydrogen-Induced Phases in Iron-Based Alloys -- 4.1.1 Atomic Interactions in Hydrogen-Charged ? and ? Phases -- 4.1.2 Hydrogen-Caused Stresses and Plastic Deformation as a Reason for ???? Transformation -- 4.1.3 Hydrogen-Induced ?*-Phase and Short-Range Decomposition of the Solid Solution -- 4.2 Nickel Hydride or Miscibility Gap?!.
327   $a4.2.1 Atomic Interactions in the Ni-H System -- 4.2.2 Thermodynamics of Ni-H Solid Solution -- 4.3 H-Induced Transformations in Ti Alloys -- 4.3.1 Titanium Hydrides -- 4.3.2 Metal Pseudo-Hydrides and Thermodynamics -- References -- 5 Hydrogen Embrittlement -- 5.1 Available Hypotheses -- 5.1.1 Hydrogen Pressure Expansion -- 5.1.2 Hydrogen Surface Adsorption -- 5.1.3 Hydrogen-Induced Lattice Embrittlement -- 5.1.4 Hydrogen-Enhanced Decohesion, HEDE -- 5.1.5 Adsorption-Induced Dislocation Emission, AIDE -- 5.1.6 Hydrogen-Enhanced Strain-Induced Vacancies, HESIV -- 5.1.7 Nanoscale Hydrogen Embrittlement -- 5.1.8 Hydrogen-Enhanced Localized Plasticity, HELP -- 5.2 Hydrogen Embrittlement of Fe-, Ni- and Ti-Based Alloys -- 5.2.1 Austenitic Steels -- 5.2.2 Nickel-Based Superalloys -- 5.2.3 Ti Alloys -- References -- 6 Hydrogen as Alloying Element -- 6.1 Temporary Alloying of Titanium Alloys with Hydrogen for Improving their Technological Plasticity -- 6.2 Hydrogen-Induced Grain Refinement -- 6.2.1 Austenitic Steels -- 6.2.2 Titanium Alloys -- References.
330   $aThis book analyzes the effect of hydrogen on the atomic-level interactions in metals, detailing the corresponding changes in the physical properties of crystal lattice defects, diffusion, and phase transformations in metallic materials as a result of hydrogen loading.
606   $aMetals$xHydrogen embrittlement
606   $aAlloys$xMetallurgy
606   $aMetals
615  0$aMetals$xHydrogen embrittlement.
615  0$aAlloys$xMetallurgy.
615  0$aMetals.
676   $a669.94
700   $aGavrili?uk$b V. G$g(Valentin Gennadievich),$01252616
702   $aShyvaniuk$b V. M.
702   $aTeus$b S. M.
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910559400903321
996   $aHydrogen in Engineering Metallic Materials$92903948
997   $aUNINA

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040   $aBibl. Dip.le Aggr. Ingegneria Innovazione - Sez. Ingegneria Innovazione$beng
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100 1 $aOttosen, Niels Saabye$0627401
245 14$aThe mechanics of constitutive modeling$h[e-book] /$cNiels Saabye Ottosen, Matti Ristinmaa
260   $aAmsterdam ;$aLondon :$bElsevier,$c2005
300   $axii, 745 p. :$bill. ;$c25 cm
504   $aIncludes bibliographical references (p. [705]-735) and index
520   $aConstitutive modelling is the mathematical description of how materials respond to various loadings. This is the most intensely researched field within solid mechanics because of its complexity and the importance of accurate constitutive models for practical engineering problems. Topics covered include: Elasticity - Plasticity theory - Creep theory - The nonlinear finite element method - Solution of nonlinear equilibrium equations - Integration of elastoplastic constitutive equations - The thermodynamic framework for constitutive modelling Thermoplasticity - Uniqueness and discontinuous bifurcations More comprehensive in scope than competitive titles, with detailed discussion of thermodynamics and numerical methods. Offers appropriate strategies for numerical solution, illustrated by discussion of specific models. Demonstrates each topic in a complete and self-contained framework, with extensive referencing
533   $aElectronic reproduction.$bAmsterdam :$cElsevier Science & Technology,$d2007.$nMode of access: World Wide Web.$nSystem requirements: Web browser.$nTitle from title screen (viewed on July 25, 2007).$nAccess may be restricted to users at subscribing institutions
650  0$aMechanics, Applied$xMathematical models
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