900 L 700 a+L B+L 500 300 a+ß 100 1 20 2 8 \80 72 Composition (wt%B) 40 60 92 97 Figure 2 Phase Diagram A/B Alloy For the alloy system shown in Figure 2, the mechanical properties of three equilibrium- cooled alloys are provided in the table below. Alloy composition Tensile strength, MPa Ductility % 98% A-2% B 210 40 28% A – 72% B 480 18 3% A – 97% B 280 8 Determine in detail 1. the tensile strength and the ductility of an equilibrium cooled alloy containing 50% metal B at the room temperature. 2. the B% to gain an alloy having strength of 350 MPa at room temperature? 3. why high percent of B metal is not desirable? Explain Temperature (C)

900 L 700 a+L B+L 500 300 a+ß 100 1 20 2 8 \80 72 Composition (wt%B) 40 60 92 97 Figure 2 Phase Diagram A/B Alloy For the alloy system shown in Figure 2, the mechanical properties of three equilibrium- cooled alloys are provided in the table below. Alloy composition Tensile strength, MPa Ductility % 98% A-2% B 210 40 28% A – 72% B 480 18 3% A – 97% B 280 8 Determine in detail 1. the tensile strength and the ductility of an equilibrium cooled alloy containing 50% metal B at the room temperature. 2. the B% to gain an alloy having strength of 350 MPa at room temperature? 3. why high percent of B metal is not desirable? Explain Temperature (C)

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Question

100%

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900
L
700
a+L
B+L,
500
300
a+ß
100
20
2 8
\80
Composition (wt%B) 72
B
92 97
40
60
Figure 2 Phase Diagram A/B Alloy
For the alloy system shown in Figure 2, the mechanical properties of three equilibrium-
cooled alloys are provided in the table below.
Alloy composition
Tensile strength, MPa
Ductility %
98% A -2% B
210
40
28% A – 72% B
480
18
3% A - 97% B
280
8
Determine in detail
1. the tensile strength and the ductility of an equilibrium cooled alloy
containing 50% metal B at the room temperature.
2. the B% to gain an alloy having strength of 350 MPa at room temperature?
3. why high percent of B'metal is not desirable? Explain
Temperature (C)

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