Here Is A Binary Phase Diagram For The Nickel-Aluminum Alloy In At. 1800 1643 1600 1455 1400 1370... 1 answer below »

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Here Is A Binary Phase Diagram For The Nickel-Aluminum Alloy In At. 1800 1643 1600 1455 1400 1370 1365 1200 1134 E 1000 852 ВСС 800 660 642 4 Ni At. % Al The Big Area In The Middle Labeled "BCC" Is A Disordered Bcc Phase That Is Of Moderate Strength And Good Ductility, (Ni) Is A Disordered Fcc Phase, (Al) Is An Disordered Fcc Phase, And L Is Liquid. All


Description: Here is a binary phase diagram for the nickel-aluminum alloy in at. 1800 1643 1600 1455 1400 1370 1365 1200 1134 E 1000 852 ВСС 800 660 642 4 Ni at. % Al The big area in the middle labeled BCC is a disordered bcc phase that is of moderate strength and good ductility, (Ni) is a disordered fcc phase, (Al) is an disordered fcc phase, and L is liquid. All other phases (NİA, or Ni2A, for example), are ordered intermetallics and are strong but brittle and are line phases (single-phase region only on the vertical line). The x-axis refers to the at.% of Nickel (100% Nickel on the rightmost side and 100% Al on the leftmost side) Question 3.a (0.5 pt.): At what composition does the maximum melting point occur in this alloy system? How does it compare to the melting points of pure Ni and pure Al? W in melting point due to alloy (please give detailed reasoning)? hat do you think causes this change


1 Approved Answer

Jones G
4 Ratings (3 Votes)
To determine the composition at which the maximum melting point occurs in the nickel-aluminum alloy system, we need to analyze the phase diagram provided. Step 1: Identify the phase boundaries - The phase diagram shows different regions representing different phases such as BCC, FCC, and liquid phases. -...

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