A 10 30 70 1) For an A-B alloy of composition 25 wt% B (i) Draw the microstructure at T (just above the eutectoid temperature) and calculate the fraction of each phase in the microstructure. (ii) Draw the microstructure at TE (just below the eutectoid temperature) and determine the amount of each phase, i.e., fraction of proeutectoid alpha, eutectoid alpha and eutectoid beta.
A 10 30 70 1) For an A-B alloy of composition 25 wt% B (i) Draw the microstructure at T (just above the eutectoid temperature) and calculate the fraction of each phase in the microstructure. (ii) Draw the microstructure at TE (just below the eutectoid temperature) and determine the amount of each phase, i.e., fraction of proeutectoid alpha, eutectoid alpha and eutectoid beta.
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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Question
![A
10
30
70
1) For an A-B alloy of composition 25 wt% B
(i) Draw the microstructure at T (just above the eutectoid temperature) and calculate the
fraction of each phase in the microstructure.
(ii) Draw the microstructure at T (just below the eutectoid temperature) and determine the
amount of each phase, i.e., fraction of proeutectoid alpha, eutectoid alpha and eutectoid beta.
2) Provide a brief summary of phase transformations which are often observed in the iron-carbon alloy
system due to various heat treatment procedures carried out to tune the microstructure. Compare
mechanical strength and ductility of the materials/microstructures that form as a result of such heat
treatment processes.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb3f96eb1-82ec-460a-9b22-23ea15970899%2Ff720aedf-6ae2-4f98-85ec-685e5638d3ee%2Fq879ta9_processed.png&w=3840&q=75)
Transcribed Image Text:A
10
30
70
1) For an A-B alloy of composition 25 wt% B
(i) Draw the microstructure at T (just above the eutectoid temperature) and calculate the
fraction of each phase in the microstructure.
(ii) Draw the microstructure at T (just below the eutectoid temperature) and determine the
amount of each phase, i.e., fraction of proeutectoid alpha, eutectoid alpha and eutectoid beta.
2) Provide a brief summary of phase transformations which are often observed in the iron-carbon alloy
system due to various heat treatment procedures carried out to tune the microstructure. Compare
mechanical strength and ductility of the materials/microstructures that form as a result of such heat
treatment processes.
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