A crystal lattice11/21/2023 ĭudarev AV (1988) Microplastic deformation and yield stress of polycrystals (in Russian). ĭeng Y, Barnoush A (2018) Hydrogen embrittlement revealed via novel in situ fracture experiments using notched micro-cantilever specimens. TMS AIME, Warrendale, PA, pp 99–124ĭegallaix S, Foct J, Hendry A (1986) Mechanical behaviour of high-nitrogen stainless steels. ĭaw MS, Baskes MI, Bisson CI, Wolfer WG (1986) In: Jones RH, Gerberich WW (eds) Modeling environmental effects on crack growth processes. (55)90093-6ĭamask AC, Dienes GJ, Weizer VG (1959) Calculations of migration and binding energies of mono-, di- and thrivacancies in copper with the use of Morse functions. Ĭracknell A, Petch NJ (1955) Hydrogen and the yield point in steel. Ĭounts WA, Wolverton C, Gibala R (2010) First-principles energetic of hydrogen traps in αFe: point defects. (68)90118-1Ĭottrell AH, Bilby BA (1949) Dislocation theory of yielding and strain ageing of iron. Ĭopley SM, Kear BH (1968) The dependence of the width of a dissociated dislocation on dislocation velocity. Paris, p 84Ĭonrad H et al (1990) Electroplasticity-the effect of electricity on the mechanical properties of metals. Ĭonophagos E, Plusquellec J, Azou P, Bastien P (1972) I Congr Intern l’Hydrogen dans les métaux. Ĭhen SR, Tang D (1990) Effect of interstitial atom concentration on lattice parameters of martensite and retained austenite in iron-carbon-nitrogen alloys. Ĭarter CB, Holmes SM (1977) The stacking-fault energy of nickel. (96)00154-1Ĭarr NZ, McLellen RB (2004) The thermodynamic and kinetic behavior of metal-vacancy-hydrogen systems. (88)90009-2īugaev VN, Gavriljuk VG, Petrov YuN, Tarasenko AV (1997) Mechanism of hydrogen-induced phase transformations in metals and alloys. (63)90209-8īugaev VN, Smirnov AA, Tatarenko VA (1988) The theory of the electrochemical and strain-induced interactions, phase transformations and rearrangement of atoms in the hydrogen solutions in metals and alloys. (88)90320-3īoniszewski T, Smith GC (1963) The influence of hydrogen on the plastic deformation ductility and fracture of nickel in tension. II, pp 535–668īond G, Robertson I, Birnbaum H (1988) Effects of hydrogen on deformation and fracture processes in high-purity aluminium. In: Cahn RW, Haasen P (eds) Physical metallurgy, 4th edn. Metallophysika 13(11):26–30īocquet IL, Brebec G, Limoge Y (1996) Diffusion in metals and alloys. (96)02968-4īobyr AM, Bugaev VN, Smirnov AA (1991) Theory of vacancy-stimulated concentration polymorphism in interstitial alloys (in Russian). (94)90166-Xīirnbaum HK, Buckley C, Zeides F, Sirois E, Rozenak P, Spooner S, Lin JS (1997) Hydrogen in aluminum. īirnbaum HK (1994) Hydrogen effects on deformation-relation between dislocation behavior and the macroscopic stress-strain behavior. (74)90136-7īesenbacher F, Myers SM, Norlander P, Norskov JK (1987) Multiple hydrogen occupancy of vacancies in Fe. īernstein IM (1974) The effect of hydrogen on the deformation of iron. C R Acad Sci Paris 232:1845–1848īeeston BEP, Dillamore IL, Smallman RE (1968) The stacking fault energy of some nickel-cobalt alloys. īastien P, Azou P (1951) Influence de l’écrouissage sur le frottement intérieur du fer et del’acier, chargés ou non en hydrogéne. īaranowski B, Maychrzack S, Flanagan TB (1971) The volume increase of fcc metals and alloys due to interstitial hydrogen ovwer a wide range of hydrogen content. (76)90119-8Ītrens A, Fiore NF, Miura K (1977) Dislocation damping and hydrogen pinning in austyenitic stainless steels. (62)90044-5Īsano S, Otsuka R (1976) The lattice hardening due to dissolved hydrogen in iron and steel. Adair AM (1966) Trans Metal Soc AIME 236:1613–1615Īdair AM, Hook RE (1962) The appearance and return of a hydrogen yield point in iron.
0 Comments
Leave a Reply.AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |