In class I mentioned that an FCC metal should be strongest in uniaxial tension when pulledalong a <111> type direction. Assuming only the preferred {111}/<110> slip systems can beactivated, use the Schmid factor ( cosφ cosλ ) to compare strength in tension along the [100],[211], and [111] directions in an FCC metal. For your final answer, complete the statement,"An FCC metal will be ___% and ___% stronger under tension in the [111] direction comparedto the [100] and [211] directions, respectively.
In class I mentioned that an FCC metal should be strongest in uniaxial tension when pulledalong a <111> type direction. Assuming only the preferred {111}/<110> slip systems can beactivated, use the Schmid factor ( cosφ cosλ ) to compare strength in tension along the [100],[211], and [111] directions in an FCC metal. For your final answer, complete the statement,"An FCC metal will be ___% and ___% stronger under tension in the [111] direction comparedto the [100] and [211] directions, respectively.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Question
In class I mentioned that an FCC metal should be strongest in uniaxial tension when pulled
along a <111> type direction. Assuming only the preferred {111}/<110> slip systems can be
activated, use the Schmid factor ( cos
φ cos
λ ) to compare strength in tension along the [100],
[211], and [111] directions in an FCC metal. For your final answer, complete the statement,
"An FCC metal will be ___% and ___% stronger under tension in the [111] direction compared
to the [100] and [211] directions, respectively.
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