4. Consider 1 kg of Sn-Bi alloys, and how many kilograms each phase forms according to the condition given in the below figure. Sb-Bi (Antimony - Bismuth) Alloy Composition: 59 wt% Sb 41 wt% Bi Temperature: 446.0 °C 835.4 °F °C Microstructure: Small red squares (pixels) represent Sb atoms and small blue squares (pixels) represent Bi atoms Liquid Composition: 31 wt% Sb 69 wt% Bi Alpha Composition: 74 wt% Sb 26 wt% Bi a) L 0.66: Alpha 0.34 kg b) L 0.69: Alpha 0.31 kg c) L 0.74: Alpha 0.26 kg d) L 0.34: Alpha 0.66 kg 700 600 500 400 300 200 0 (Sb) Alpha 10 20 30 40 Liquid + Alpha 50 60 Composition (wt% Bi) 70 Liquid 80 90 °F 1200 1000 800 600 400 100 (BI)
4. Consider 1 kg of Sn-Bi alloys, and how many kilograms each phase forms according to the condition given in the below figure. Sb-Bi (Antimony - Bismuth) Alloy Composition: 59 wt% Sb 41 wt% Bi Temperature: 446.0 °C 835.4 °F °C Microstructure: Small red squares (pixels) represent Sb atoms and small blue squares (pixels) represent Bi atoms Liquid Composition: 31 wt% Sb 69 wt% Bi Alpha Composition: 74 wt% Sb 26 wt% Bi a) L 0.66: Alpha 0.34 kg b) L 0.69: Alpha 0.31 kg c) L 0.74: Alpha 0.26 kg d) L 0.34: Alpha 0.66 kg 700 600 500 400 300 200 0 (Sb) Alpha 10 20 30 40 Liquid + Alpha 50 60 Composition (wt% Bi) 70 Liquid 80 90 °F 1200 1000 800 600 400 100 (BI)
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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Consider 1 kg of Sn-Bi alloys, and how many kilograms each phase forms according to the condition given in the below figure.
a) L 0.66: Alpha 0.34 kg
b) L 0.69: Alpha 0.31 kg
c) L 0.74: Alpha 0.26 kg
d) L 0.34: Alpha 0.66 kg
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