Compute for the relative amount of each phase present in term of mass fraction for a 80% Cu - 20% Ag alloy at 1600F. Temperature (℃) 1200 A 1000 800 600 400 с 2000 B 8.0 (Cop -Solidus Solvus 20 20 W+L Composition (at% Ag 40 -Liquidus 779°C (T 40 --D Liquid 60 E 71.9 (C₂₂) 80 B+L 91.2 T G 100 12200 2000 T 60 (Cul Composition (wt% Ag) Figure 9.7 The copper-silver phase diagram. [Adapted from Binary Alloy Phase Diagrams, 2nd edition, Vol. 1, T. B. Massalski (Editor-in-Chief), 1990. Reprinted by permission of ASM International, Materials Park, OH.] H 1800 F 1600 1400 1200 1000 800 600 400 100 (Ag) Temperature (°F)

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Compute for the relative amount of each phase present in term of mass fraction for a
80% Cu - 20% Ag alloy at 1600F.
Temperature (°C)
1200
1000
800
600
400
200
"
с
B
8.0
(C₂)
-Solidus
Solvus
20
20
Composition (at% Ag)
40
-Liquidus
779°C (T
a+p
40
T
Liquid
60
71.9
(C)
80
A+L
91.2
(CoR)
T
G
100
L
60
(Cu)
Composition (wt% Ag)
Figure 9.7 The copper-silver phase diagram. [Adapted from Binary Alloy Phase
Diagrams, 2nd edition, Vol. 1, T. B. Massalski (Editor-in-Chief), 1990. Reprinted by
permission of ASM International, Materials Park, OH.]
H
2200
2000
1800
F
1600
1400
1200
1000
800
600
400
100
(Ag)
Temperature (°F)
Transcribed Image Text:Compute for the relative amount of each phase present in term of mass fraction for a 80% Cu - 20% Ag alloy at 1600F. Temperature (°C) 1200 1000 800 600 400 200 " с B 8.0 (C₂) -Solidus Solvus 20 20 Composition (at% Ag) 40 -Liquidus 779°C (T a+p 40 T Liquid 60 71.9 (C) 80 A+L 91.2 (CoR) T G 100 L 60 (Cu) Composition (wt% Ag) Figure 9.7 The copper-silver phase diagram. [Adapted from Binary Alloy Phase Diagrams, 2nd edition, Vol. 1, T. B. Massalski (Editor-in-Chief), 1990. Reprinted by permission of ASM International, Materials Park, OH.] H 2200 2000 1800 F 1600 1400 1200 1000 800 600 400 100 (Ag) Temperature (°F)
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