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Results:
1-10
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Results: 10
Authors:
SRIVATSAN TS
SOBOYEJO WO
LEDERICH RJ
Citation: Ts. Srivatsan et al., TENSILE DEFORMATION AND FRACTURE-BEHAVIOR OF A TITANIUM-ALLOY METAL-MATRIX COMPOSITE, Composites. Part A, Applied science and manufacturing, 28(4), 1997, pp. 365-376
Authors:
DUBEY S
LEDERICH RJ
SOBOYEJO WO
Citation: S. Dubey et al., FATIGUE AND FRACTURE OF DAMAGE-TOLERANT IN-SITU TITANIUM MATRIX COMPOSITES, Metallurgical and materials transactions. A, Physical metallurgy andmaterials science, 28(10), 1997, pp. 2037-2047
Authors:
SOBOYEJO WO
LEDERICH RJ
SCHWARTZ DS
Citation: Wo. Soboyejo et al., INVESTIGATION OF THE EFFECTS OF MICROSTRUCTURE ON CREEP DEFORMATION IN ALPHA(2)-BASED TITANIUM ALUMINIDE INTERMETALLICS, Journal of Materials Science, 32(7), 1997, pp. 1877-1887
Authors:
SOBOYEJO WO
YE F
CHEN LC
BAHTISHI N
SCHWARTZ DS
LEDERICH RJ
Citation: Wo. Soboyejo et al., EFFECTS OF REINFORCEMENT MORPHOLOGY ON THE FATIGUE AND FRACTURE-BEHAVIOR OF MOSI2 NB COMPOSITES/, Acta materialia, 44(5), 1996, pp. 2027-2041
Authors:
VALENTINE PG
NYGREN RE
BURNS RW
ROCKET PD
COLLERAINE AP
LEDERICH RJ
BRADLEY JT
Citation: Pg. Valentine et al., HIGH HEAT-FLUX TESTING OF CFC COMPOSITES FOR THE TOKAMAK PHYSICS EXPERIMENT, Journal of nuclear materials, 237, 1996, pp. 660-666
Authors:
SRIVATSAN TS
SOBOYEJO WO
LEDERICH RJ
Citation: Ts. Srivatsan et al., THE CYCLIC FATIGUE AND FRACTURE-BEHAVIOR OF A TITANIUM-ALLOY METAL-MATRIX COMPOSITE, Engineering fracture mechanics, 52(3), 1995, pp. 467
Authors:
HARIPRASAD S
SASTRY SML
JERINA KL
LEDERICH RJ
Citation: S. Hariprasad et al., FATIGUE-CRACK GROWTH-RATES AND FRACTURE-TOUGHNESS OF RAPIDLY SOLIDIFIED AL-8.5 PCT FE-1.2 PCT V-1.7 PCT SI ALLOYS, Metallurgical and materials transactions. A, Physical metallurgy andmaterials science, 25(5), 1994, pp. 1005-1014
Authors:
LEDERICH RJ
WOBOYEJO WO
SRIVATSAN TS
Citation: Rj. Lederich et al., PREPARING DAMAGE-TOLERANT TITANIUM-MATRIX COMPOSITES, JOM, 46(11), 1994, pp. 68-71
Authors:
SOBOYEJO WO
LEDERICH RJ
SASTRY SML
Citation: Wo. Soboyejo et al., MECHANICAL-BEHAVIOR OF DAMAGE-TOLERANT TIB WHISKER-REINFORCED IN-SITUTITANIUM MATRIX COMPOSITES, Acta metallurgica et materialia, 42(8), 1994, pp. 2579-2591
Authors:
LEDERICH RJ
MCAFEE JL
SCHWARTZ DS
Citation: Rj. Lederich et al., SUPERPLASTIC FORMING AND THE RESULTING MECHANICAL-PROPERTIES OF -AL-20WT-PERCENT-NB-3.2WT-PERCENT-V-2WT-PERCENT-MO, Materials science & engineering. A, Structural materials: properties, microstructure and processing, 189(1-2), 1994, pp. 29-33
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