kw.\*:("ENERGIE DISLOCATION")
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ON MINIMUM OF ENERGY IN THE PEIERLS-NABARRO DISLOCATION MODELLEJCEK L.1973; CZECHOSL. J. PHYS.; CZECHOSL.; DA. 1973; VOL. 23; NO 2; PP. 176-178; BIBL. 4 REF.Serial Issue
ELASTISCHE ENERGIE UND VORZUGSRICHTUNGEN GERADLINIGER VERSETZUNGEN IN AUS DER LOSUNG GEWACHSENEN ORGANISCHEN KRISTALLEN. II. THIOHARNSTOFF = ENERGIE ELASTIQUE ET DIRECTIONS PRIVILEGIEES DES DISLOCATIONS RECTILIGNES DANS LES CRISTAUX ORGANIQUES OBTENUS A PARTIR DE LA SOLUTION. II. THIOUREEKLAPPER H.1972; PHYS. STATUS SOLIDI, A; ALLEM.; DA. 1972; VOL. 14; NO 2; PP. 443-451; ABS. ANGL.; BIBL. 13 REF.Serial Issue
A METHOD FOR EVALUATION OF DISLOCATION STRAIN ENERGY AND SELF FORCESCATTERGOOD RO.1980; ACTA METALL.; USA; DA. 1980-12; VOL. 28; NO 12; PP. 1703-1714; BIBL. 23 REF.Article
SPECTRUM ANALYSIS FOR DETERMINATION OF RUPTURE LENGTH OF MICROEARTHQUAKES.TUTUNCUOGLU K; SATO R.1974; BULL. INTERNATION. INST. SEISMOL. EARTHQUAKE ENGNG; JAP.; DA. 1974; VOL. 12; PP. 1-16; BIBL. 6 REF.Article
UNSTABLE GLIDE DISLOCATIONS IN ALPHA -IRON AT ELEVATED TEMPERATURESCHOU YT; SHA GT.1973; SCRIPTA METALLURG.; E.U.; DA. 1973; VOL. 7; NO 2; PP. 201-203; BIBL. 5 REF.Serial Issue
PROPRIETES ELASTIQUES DES DISLOCATIONSSIRCA F.1972; VARILNA TEH.; JUGOSL.; DA. 1972; VOL. 21; NO 4; PP. 105-116; ABS. ANGL. FR. ALLEM.; BIBL. 9 REF.Serial Issue
ENERGETIC CALCULATIONS CONCERNING THE A-DEFECT STRUCTURE AND FORMATION IN SILICONSCHNITTLER C; TEICHMANN G; KAUFMANN W et al.1981; PHYS. STATUS SOLIDI (A), APPL. RES.; DDR; DA. 1981-12; VOL. 68; NO 2; PP. K135-K139; BIBL. 6 REF.Article
DISLOCATION LOOPS IN HEXAGONAL CRYSTALS.TUPHOLME GE.1974; J. MECH. PHYS. SOLIDS; G.B.; DA. 1974; VOL. 22; NO 4; PP. 309-321; BIBL. 25 REF.Article
ELASTIC STRESSES AND SELF-ENERGIES OF DISLOCATIONS OF ARBITRARY ORIENTATION IN ANISOTROPIC MEDIA: OLIVINE, ORTHOPYROXENE, CALCITE, AND QUARTZ.HEINISCH HL JR; SINES G; GOODMAN JW et al.1975; J. GEOPHYS. RES.; U.S.A.; DA. 1975; VOL. 80; NO 14; PP. 1885-1896; BIBL. 26 REF.; 19 ILL.Article
OPERATIVE SLIP MODES AND DISLOCATION MECHANISM FOR CUBE SLIP IN BETA 'AUZN SINGLE CRYSTALSABOELFOTOH MO.1973; SCRIPTA METALLURG.; E.U.; DA. 1973; VOL. 7; NO 2; PP. 193-200; BIBL. 17 REF.Serial Issue
A method of measuring stored energy macroscopically using statistically stored dislocations in commercial purity aluminumTAHERI, Mitra; WEILAND, Hasso; ROLLETT, Anthony et al.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 2006, Vol 37, Num 1, pp 19-25, issn 1073-5623, 7 p.Conference Paper
DISLOCATION-MISFIT DEFECT INTERACTION IN ANISOTROPIC DIAMOND CUBIC CRYSTALSPARAMESWARAN VR; BAPNA MS.1981; MATER. SCI. ENG.; CHE; DA. 1981-09; VOL. 50; NO 1; PP. 81-91; BIBL. 22 REF.Article
ON THE ENERGY AND ELASTIC FIELD OF DISLOCATION ARRAYS AT THE INTERFACE OF A SYMMETRICAL BICRYSTAL IN ANISOTROPIC ELASTICITY THEORY = ENERGIE ET CHAMP ELASTIQUE DE RESEAUX DE DISLOCATIONS A L'INTERFACE D'UN BICRISTAL SYMETRIQUE DANS LA THEORIE D'ELASTICITE ANISOTROPEBONNET R.1981; PHILOS. MAG., A; ISSN 0141-8610; GBR; DA. 1981; VOL. 44; NO 3; PP. 625-642; BIBL. 23 REF.Article
THE PROBLEM OF ENERGY OF KINKS OF DISLOCATION LINESGOLEBIEWSKA A.1973; ARCH. MECH.; POLAND; DA. 1973; VOL. 25; NO 4; PP. 675-684; ABS. POL. RUSSE; BIBL. 3 REF.Serial Issue
ENERGETICS IN THERMALLY ACTIVATED DISLOCATION MOTION IN A SPINODALLY MODULATED STRUCTURE = ENERGIEVERHAELTNISSE BEI THERMISCH AKTIVIERTEN VERSETZUNGSBEWEGUNGEN IN SPINODAL MODULIERTEN STRUKTUREN = CONDITIONS ENERGETIQUES AU COURS DES DEPLACEMENTS DE DISLOCATIONS ACTIVES THERMIQUEMENT DANS LES STRUCTURES MODULEES SPINODALESKATO M; LEE TC; CHAN SL et al.1982; MATER. SCI. ENG.; CHE; DA. 1982-07; VOL. 54; NO 2; PP. 145-150; BIBL. 13 REF.Article
Dislocation and grain boundary energies in Si and Ge from an anharmonic bond charge modelTEICHLER, H; WILDER, J.Journal de physique. III (Print). 1997, Vol 7, Num 12, pp 2281-2292, issn 1155-4320Conference Paper
The core energy of dislocationsSCHOECK, G.Acta metallurgica et materialia. 1995, Vol 43, Num 10, pp 3679-3684, issn 0956-7151Article
Dislocation waves in a two-dimensional Coulomb latticeESFARJANI, K; CHUI, S. T; QIU, X et al.Physical review. B, Condensed matter. 1992, Vol 46, Num 8, pp 4638-4643, issn 0163-1829Article
Dissociation of super-dislocations and the SISF energy in γ-TiAl based alloy with Nb-doping, as studied by HRTEMYUAN, Y; YIN, K. B; ZHAO, X. N et al.Journal of materials science. 2006, Vol 41, Num 14, pp 4695-4697, issn 0022-2461, 3 p.Article
Quantitative analysis of dislocations in relation with the martensitic transformation in Cu-Zn-Al alloysRODRIGUEZ, P. L; CONDO, A. M; LOVEY, F. C et al.Physica status solidi. B. Basic research. 1996, Vol 197, Num 2, pp 279-292, issn 0370-1972Article
Analyse d'une classe de precipites semicoherents fibreux: cristallographie de l'interface V3Si/V5Si3 et champ de deformation = Analysis of semi-coherent precipitates of fibronic type = Untersuchung von faserartigen halbkohaerenten AusscheidungenBONNET, R; BEN LAMINE, A; REYNAULD, F et al.Acta metallurgica. 1987, Vol 35, Num 3, pp 711-720, issn 0001-6160Article
Relationships between grain boundary structure and energy = Beziehung zwischen Korngrenzenstruktur und EnergieGUI-JIN WAN G; VITEK, V.Acta metallurgica. 1986, Vol 34, Num 5, pp 951-960, issn 0001-6160Article
Generation and propagation of dislocations during crystal growthKLAPPER, H.Materials chemistry and physics. 2000, Vol 66, Num 2-3, pp 101-109, issn 0254-0584Conference Paper
Surface defects and possible dissociations of dislocations on {110} planes of Ir, Rh, and Cu : I. Computer simulationYAKOVENKOVA, L. I; RABOVSKAYA, M. YA; KAR'KINA, L. E et al.Physics of metals and metallography. 1996, Vol 82, Num 3, pp 241-246, issn 0031-918XArticle
An energy analysis of triple junction crack nucleation due to the wedging action of grain boundary dislocationsWU, M. S; ZHOU, H.International journal of fracture. 1996, Vol 78, Num 2, pp 165-191, issn 0376-9429Article
