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Results:
1-9
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Results: 9
Authors:
VASIN RA
ENIKEEV FU
MAZURSKI MI
Citation: Ra. Vasin et al., ON THE STRAIN-RATE SENSITIVITY VALUES OF SUPERPLASTIC MATERIALS, Materials science & engineering. A, Structural materials: properties, microstructure and processing, 255(1-2), 1998, pp. 169-171
Authors:
MAZURSKI MI
ENIKEEV FU
Citation: Mi. Mazurski et Fu. Enikeev, A NEW THEORETICAL CONCEPT FOR MICROGRAIN SUPERPLASTICITY PROVIDING THE PREDICTION OF THE OPTIMUM CONDITIONS FOR SUPERPLASTIC DEFORMATION, Physica status solidi. b, Basic research, 206(2), 1998, pp. 519-534
Authors:
VASIN RA
ENIKEEV FU
MAZURSKI MI
Citation: Ra. Vasin et al., METHOD TO DETERMINE THE STRAIN-RATE SENSITIVITY OF A SUPERPLASTIC MATERIAL FROM THE INITIAL SLOPES OF ITS STRESS-STRAIN CURVES, Journal of Materials Science, 33(4), 1998, pp. 1099-1103
Authors:
VASIN RA
ENIKEEV FU
MAZURSKI MI
Citation: Ra. Vasin et al., DETERMINATION OF THE STRAIN-RATE SENSITIVITY OF A SUPERPLASTIC MATERIAL AT CONSTANT-LOAD TEST, Materials science & engineering. A, Structural materials: properties, microstructure and processing, 224(1-2), 1997, pp. 131-135
Authors:
MURZINOVA MA
MAZURSKI MI
SALISHCHEV GA
AFONICHEV DD
Citation: Ma. Murzinova et al., APPLICATION OF REVERSIBLE HYDROGEN ALLOYING FOR FORMATION OF SUBMICROCRYSTALLINE STRUCTURE IN (ALPHA-ALLOYS(BETA) TITANIUM), International journal of hydrogen energy, 22(2-3), 1997, pp. 201-204
Authors:
KORSHUNOV AA
ENIKEEV FU
MAZURSKI MI
SALISHCHEV GA
DMITRIEV OV
MURAVLEV AV
CHISTYAKOV PV
Citation: Aa. Korshunov et al., GRAIN-STRUCTURE REFINEMENT IN TITANIUM-ALLOY UNDER DIFFERENT LOADING SCHEDULES, Journal of Materials Science, 31(17), 1996, pp. 4635-4639
Authors:
ENIKEEV FU
MAZURSKI MI
Citation: Fu. Enikeev et Mi. Mazurski, DETERMINATION OF THE STRAIN-RATE SENSITIVITY OF A SUPERPLASTIC MATERIAL DURING LOAD RELAXATION TEST, Scripta metallurgica et materialia, 32(1), 1995, pp. 1-6
Authors:
MAZURSKI MI
SALISHCHEV GA
Citation: Mi. Mazurski et Ga. Salishchev, EFFECT OF INTERFACE ENERGY ANISOTROPY ON THERMAL-STABILITY AND TRANSFORMATION OF LAMELLAR STRUCTURES .2. TRANSFORMATION OF LAMELLAE, Physica status solidi. b, Basic research, 188(2), 1995, pp. 653-658
Authors:
MAZURSKI MI
SALISHCHEV GA
Citation: Mi. Mazurski et Ga. Salishchev, EFFECTS OF INTERFACE ENERGY ANISOTROPY ON THERMAL-STABILITY AND TRANSFORMATION OF LAMELLAR STRUCTURES .1. BEHAVIOR OF 2-PHASE SYSTEMS UNDERANNEALING AS RELATED TO PARTICLE-SHAPE EQUILIBRIUM, Physica status solidi. b, Basic research, 187(2), 1995, pp. 501-509
Risultati:
1-9
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