1. From the phase diagram for a binary mixture of titanium and nickel, find:
a. label the two-phase regions with the phases present in each case.
b. The phase or phases present in a mixture of 2g nickel with 48g titanium @ 1000C
c. Amount of additional nickel in g required for the alloy to start to form a liquid at 1000C.
d. Composition of the first liquid that starts to form as nickel is added to this alloy
e. Amount of nickel in g required to add to the original alloy to convert it entirely to liquid
f. Composition and melting point of the titanium nickel alloy with the lowest melting point.
g. Compositions and relative amounts of the first phase or phases formed when this lowest melting point alloy is cooled from a liquid to a solid.
h. 35g nickel mixed with 15g titanium at 1200C. Find the compositions and relative amounts of phases present.
i. 50g of nickel is added to the alloy from part h. What are the compositions and relative amounts of the phases present at 1200C for this new mixture?
j. 200g of nickel is added to the alloy from part i. What are the compositions and relative amounts of the phases present at 1200C for this new mixture?
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1. From the phase diagram for a binary mixture of titanium and nickel, find: a. label...
6. Consider the Ti-Ni system in the figure below. Atomic Percent Nickel 20 I800 1600 L 1450C 1400 200 TIN (Ni) 1000 Un) re s00 Hati) s00 Ti Weight Percent Nickel N a. What are the melting temperatures of pure Ni and pure Ti? b. Label the liquidus and solidus lines in the figure. c. Label al field containing two phases in the figure. d. What is the maximum solubility of Ni in a-Ti and Ti in Ni? e. Write...
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