Search Results - "Cohron, J.W"

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  1. 1
    Room-temperature mechanical behavior of FeAl: effects of stoichiometry, environment, and boron addition

    Room-temperature mechanical behavior of FeAl: effects of stoichiometry, environment, and boron addition by Cohron, J.W, Lin, Y, Zee, R.H, George, E.P

    Published in Acta materialia (02-11-1998)
    “…The intrinsic ductility of FeAl (in ultrahigh vacuum) decreases with increasing Al content, from around 16% in Fe–37Al to zero in Fe–48Al. The sharpest decline…”
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  2. 2
    Impurity effects on high-temperature tensile ductility of iridium alloys at high strain rate

    Impurity effects on high-temperature tensile ductility of iridium alloys at high strain rate by McKamey, C.G, George, E.P, Lee, E.H, Ohriner, E.K, Heatherly, L, Cohron, J.W

    Published in Scripta materialia (17-12-1999)
    “…The effects of Al, Cr, Fe, Ni and Si on the elevated-temperature (980 deg C) high-strain-rate (approx10 exp 3 /s) tensile ductility of an Ir alloy (nominal…”
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  3. 3
    Effect of low-pressure hydrogen on the room-temperature tensile ductility and fracture behavior of Ni3Al

    Effect of low-pressure hydrogen on the room-temperature tensile ductility and fracture behavior of Ni3Al by Cohron, J.W., George, E.P., Heatherly, L., Liu, C.T., Zee, R.H.

    Published in Intermetallics (01-09-1996)
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  4. 4
    Reply to “A Comment on Hydrogen-Boron Interaction and Its Effect on the Ductility and Fracture of Ni 3Al”

    Reply to “A Comment on Hydrogen-Boron Interaction and Its Effect on the Ductility and Fracture of Ni 3Al” by Cohron, J.W, George, E.P, Heatherly, L, Liu, C.T, Zee, R.H

    Published in Scripta materialia (1998)
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  5. 5
    Hydrogen-boron interaction and its effect on the ductility and fracture of Ni3Al

    Hydrogen-boron interaction and its effect on the ductility and fracture of Ni3Al by COHRON, J. W, GEORGE, E. P, HEATHERLY, L, LIU, C. T, ZEE, R. H

    Published in Acta materialia (01-07-1997)
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  6. 6
    Effect of low-pressure hydrogen on the room-temperature tensile ductility and fracture behavior of Ni 3Al

    Effect of low-pressure hydrogen on the room-temperature tensile ductility and fracture behavior of Ni 3Al by Cohron, J.W., George, E.P., Heatherly, L., Liu, C.T., Zee, R.H.

    Published in Intermetallics (1996)
    “…The effect of low-pressure (≤1.3 × 10 3 Pa) hydrogen gas on the ductility and fracture behavior of polycrystalline Ni 3Al (23.4 at% Al) was investigated…”
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  7. 7
    Reply to “A Comment on Hydrogen-Boron Interaction and Its Effect on the Ductility and Fracture of Ni3Al”

    Reply to “A Comment on Hydrogen-Boron Interaction and Its Effect on the Ductility and Fracture of Ni3Al” by Cohron, J.W, George, E.P, Heatherly, L, Liu, C.T, Zee, R.H

    Published in Scripta materialia (03-02-1998)
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  8. 8
    The effect of low-pressure oxygen exposure on the high-temperature tensile impact ductility of a thorium-doped iridium alloy

    The effect of low-pressure oxygen exposure on the high-temperature tensile impact ductility of a thorium-doped iridium alloy by McKamey, C.G., Lee, E.H., Cohron, J.W., George, E.P.

    Published in Scripta materialia (15-07-1996)
    “…High-temperature impact tests as a function of impact test temperature were conducted on Ir-0.3%W+60 wppm Th specimens which had been exposed to 1.3 mPa of…”
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