Q3/ Draw thermal equilibrium diagram for the binary alloy (Pb- Sn) from the following data :- Lead melting at 327 °C, Tin melting at 232 °C, and the eutectic mixture consists of (61.9 wt% Sn- 38.1% Pb) at 183 °C. The maximum solubility of Sn in Pb 19.5 wt% at 183 °C, but the maximum solubility of Pb in Sn 2.6 wt% at 183 °C, and the solubility limits to each other's decreasing to zero at room temperature. (Assume solubility lines linear). Determine the following :- a- Identify all phases are present in the diagram. Sn b- Calculate the amount of each phase for the alloy which consist of (60wt% pb -40wt% Sn) at 400 °C 200 °C,and 100°C T 7 c- Calculate the percentage of eutectic for the alloy which consist of (60wt% Pb- 40wt% Sn) at 150°C
Q3/ Draw thermal equilibrium diagram for the binary alloy (Pb- Sn) from the following data :- Lead melting at 327 °C, Tin melting at 232 °C, and the eutectic mixture consists of (61.9 wt% Sn- 38.1% Pb) at 183 °C. The maximum solubility of Sn in Pb 19.5 wt% at 183 °C, but the maximum solubility of Pb in Sn 2.6 wt% at 183 °C, and the solubility limits to each other's decreasing to zero at room temperature. (Assume solubility lines linear). Determine the following :- a- Identify all phases are present in the diagram. Sn b- Calculate the amount of each phase for the alloy which consist of (60wt% pb -40wt% Sn) at 400 °C 200 °C,and 100°C T 7 c- Calculate the percentage of eutectic for the alloy which consist of (60wt% Pb- 40wt% Sn) at 150°C
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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![Q3/ Draw thermal equilibrium diagram for the binary alloy (Pb- Sn) from the following data :-
Lead melting at 327 °C, Tin melting at 232 °C, and the eutectic mixture consists of (61.9 wt% Sn-
38.1% Pb) at 183 °C. The maximum solubility of Sn in Pb 19.5 wt% at 183 °C, but the maximum
solubility of Pb in Sn 2.6 wt% at 183 °C, and the solubility limits to each other's decreasing to zero at
room temperature. (Assume solubility lines linear).
Determine the following :-
a- Identify all phases are present in the diagram.
b- Calculate the amount of each phase for the alloy which consist of (60wt% pb -40wt% Sn) at 400 °C
200 °C ,and 100°C
sn
c- Calculate the percentage of eutectic for the alloy which consist of (60wt% Pb- 40wt% Sn) at 150°C
1](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe7d24fa7-1068-42ae-b086-8b14ebb52746%2Fb7260a86-2fd5-491f-8361-fb1c590a14fc%2Ffg0mext_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Q3/ Draw thermal equilibrium diagram for the binary alloy (Pb- Sn) from the following data :-
Lead melting at 327 °C, Tin melting at 232 °C, and the eutectic mixture consists of (61.9 wt% Sn-
38.1% Pb) at 183 °C. The maximum solubility of Sn in Pb 19.5 wt% at 183 °C, but the maximum
solubility of Pb in Sn 2.6 wt% at 183 °C, and the solubility limits to each other's decreasing to zero at
room temperature. (Assume solubility lines linear).
Determine the following :-
a- Identify all phases are present in the diagram.
b- Calculate the amount of each phase for the alloy which consist of (60wt% pb -40wt% Sn) at 400 °C
200 °C ,and 100°C
sn
c- Calculate the percentage of eutectic for the alloy which consist of (60wt% Pb- 40wt% Sn) at 150°C
1
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