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Using the isothermal transformation diagram for an Fe-C alloy of eutectoid composition (0.76 wt% C) shown...
1. Using the isothermal transformation diagram for an iron-carbon alloy of eutectoid composition, specify the nature...
1. Using the isothermal transformation diagram for an iron-carbon alloy of eutectoid composition, specify the nature of the final microstructure (in terms of microconstituents present and approximate percentages of each) of a small specimen that has been subjected to the following time-temperature treatments. In each case assume that the specimen begins at 760°C and that it has been held at this temperature long enough to have achieved a complete and homogeneous austenitic structure (a) Rapidly cool to 400°C, hold for...
Problem 3 (20 pts): Using the phase diagram and isothermal transformation diagram for an iron- carbon alloy of eutectoid composition. Assuming that the specimen begins at 760-C and that it has...
Problem 3 (20 pts): Using the phase diagram and isothermal transformation diagram for an iron- carbon alloy of eutectoid composition. Assuming that the specimen begins at 760-C and that it has been held at this temperature long enough to have achieved a complete and homogeneous austenitic structure, answer the following questions: 1400 Eutectoid temerabre 1000 800 400 600 300 400 200 MC90%) 100 200 Time (s) We were unable to transcribe this image
Problem 3 (20 pts): Using the phase...
Problem 4 The TTT (isothermal transformation) diagram for an iron-carbon alloy with eutectoid 0.78 wt. %...
Problem 4 The TTT (isothermal transformation) diagram for an iron-carbon alloy with eutectoid 0.78 wt. % C composition is shown on the next page. Describe the microstructure present in a thin strip of 1080 steel (0.80 wt. % C, approximately eutectoid composition) after each step of the following treatments. Assume that the steel is initially 100 % in the austenite phase due to prior homoge- nization by holding at 871 °C for 1 h. (a) Quench in lead at 704...
a. b.c.d. The following figure is the isothermal transformation diagram for a precursor of 0.76 wt%...
a. b.c.d.
The following figure is the isothermal transformation diagram for a precursor of 0.76 wt% austenite (eutectoid steel) 800 1400 Eutectoid temperature 700 1200 600 1000 500 800 O400 600 300 M(start) M( 50%) M(90%) 50% 400 200 | | 100 10 10 10 10 Time (s) 10-1 10
the isothermal transformation diagram carbon alloy of eutectoid composition specify the nature of the final mi-...
the isothermal transformation diagram carbon alloy of eutectoid composition specify the nature of the final mi- 11.1 for an e 11.23), r11.23), specifty the nature of the final mi- 11.1 (Figure ture (in terms of microconstituents pres- and approximate percentages of each) of a small specimen that has been subjected to the fol- lowing time-temperature treatments. In each case assume that the specimen begins at 760°C (1400℉) and that it has been held,at this tempera- ture long enough to have...
Make a copy of the isothermal transformation diagram for an iron–carbon alloy of eutectoid composition provided...
Make a copy of the isothermal transformation diagram for an
iron–carbon alloy of eutectoid composition provided overleaf and
then sketch and label time–temperature paths on this diagram to
produce the following microstructures:
a) 25% martensite and 75% austenite
b) 100% fine pearlite
c) 25% pearlite, 25% bainite, 45% martensite, and 5%
austenite.
d) 100% tempered martensite.
800 A 1400 Eutectoid temperature 700 A 1200 A P 600 1000 500 800 AXTIS 400 A 600 300 M(start 50% 200 400 M+A...
5. Three steels with a composition of Fe-0.2 wt.% C, Fe-0.76 wt.% C and Fe-1.1 wt.%...
5. Three steels with a composition of Fe-0.2 wt.% C, Fe-0.76 wt.% C and Fe-1.1 wt.% C are produced by melting and slowly cooling down to room temperature. By referring the phase diagram provided in figure 3, what would you expect in terms of phase changes (solidification sequence) in all three alloys as the temperature of the alloys reduces from melting temperature to room temperature? What will be the approximate weight fraction of each of those micro constituents at room...
Problem 9.70 (GO Tutorial) Consider 2.6 kg of a 99.4 wt% Fe-0.6 wt% C alloy that...
Problem 9.70 (GO Tutorial) Consider 2.6 kg of a 99.4 wt% Fe-0.6 wt% C alloy that is cooled to a temperature just below the eutectoid. The iron-iron carbide phase diagram is shown in the Animated Figure 9.24 (a) How many kilograms of proeutectoid ferrite form? kg [The tolerance is +/- 2.0%.] (b) How many kilograms of eutectoid ferrite form? kg [The tolerance is +/- 2.0%.] (c) How many kilograms of cementite form? kg [The tolerance is +/- 2.0%.] Composition =...
A steel alloy contains 94.4 wt% Fe, 5.0 wt% Mo, and 0.6 wt% C. Using Animated...
A steel alloy contains 94.4 wt% Fe, 5.0 wt% Mo, and 0.6 wt% C. Using Animated Figure 9.34 and Animated Figure 9.35 determine the following: (a) The eutectoid temperature of this alloy. C [The absolute tolerance is +/- 20.] (b) The eutectoid composition. wt%C [The absolute tolerance is +/- 0.02.]
5 Three steels with a composition of Fe-0.2 wt.% C, Fe-0.76 wt.% C and Fe-1.1 wt.%...
5 Three steels with a composition of Fe-0.2 wt.% C, Fe-0.76 wt.% C and Fe-1.1 wt.% Care produced by melting and slowly cooling down to room temperature. By referring the phase diagram provided in figure 3, what would you expect in terms of phase changes (solidification sequence) in all three alloys as the temperature of the alloys reduces from melting temperature to room temperature? What will be the approximate weight fraction of each of those micro constituents at room temperature...
1. Using the isothermal transformation diagram for an iron-carbon alloy of eutectoid composition, specify the nature of the final microstructure (in terms of microconstituents present and approximate percentages of each) of a small specimen that has been subjected to the following time-temperature treatments. In each case assume that the specimen begins at 760°C and that it has been held at this temperature long enough to have achieved a complete and homogeneous austenitic structure (a) Rapidly cool to 400°C, hold for...
Problem 3 (20 pts): Using the phase diagram and isothermal transformation diagram for an iron- carbon alloy of eutectoid composition. Assuming that the specimen begins at 760-C and that it has been held at this temperature long enough to have achieved a complete and homogeneous austenitic structure, answer the following questions: 1400 Eutectoid temerabre 1000 800 400 600 300 400 200 MC90%) 100 200 Time (s) We were unable to transcribe this image
Problem 3 (20 pts): Using the phase...
Problem 4 The TTT (isothermal transformation) diagram for an iron-carbon alloy with eutectoid 0.78 wt. % C composition is shown on the next page. Describe the microstructure present in a thin strip of 1080 steel (0.80 wt. % C, approximately eutectoid composition) after each step of the following treatments. Assume that the steel is initially 100 % in the austenite phase due to prior homoge- nization by holding at 871 °C for 1 h. (a) Quench in lead at 704...
a. b.c.d.
The following figure is the isothermal transformation diagram for a precursor of 0.76 wt% austenite (eutectoid steel) 800 1400 Eutectoid temperature 700 1200 600 1000 500 800 O400 600 300 M(start) M( 50%) M(90%) 50% 400 200 | | 100 10 10 10 10 Time (s) 10-1 10
the isothermal transformation diagram carbon alloy of eutectoid composition specify the nature of the final mi- 11.1 for an e 11.23), r11.23), specifty the nature of the final mi- 11.1 (Figure ture (in terms of microconstituents pres- and approximate percentages of each) of a small specimen that has been subjected to the fol- lowing time-temperature treatments. In each case assume that the specimen begins at 760°C (1400℉) and that it has been held,at this tempera- ture long enough to have...
Make a copy of the isothermal transformation diagram for an
iron–carbon alloy of eutectoid composition provided overleaf and
then sketch and label time–temperature paths on this diagram to
produce the following microstructures:
a) 25% martensite and 75% austenite
b) 100% fine pearlite
c) 25% pearlite, 25% bainite, 45% martensite, and 5%
austenite.
d) 100% tempered martensite.
800 A 1400 Eutectoid temperature 700 A 1200 A P 600 1000 500 800 AXTIS 400 A 600 300 M(start 50% 200 400 M+A...
5. Three steels with a composition of Fe-0.2 wt.% C, Fe-0.76 wt.% C and Fe-1.1 wt.% C are produced by melting and slowly cooling down to room temperature. By referring the phase diagram provided in figure 3, what would you expect in terms of phase changes (solidification sequence) in all three alloys as the temperature of the alloys reduces from melting temperature to room temperature? What will be the approximate weight fraction of each of those micro constituents at room...
Problem 9.70 (GO Tutorial) Consider 2.6 kg of a 99.4 wt% Fe-0.6 wt% C alloy that is cooled to a temperature just below the eutectoid. The iron-iron carbide phase diagram is shown in the Animated Figure 9.24 (a) How many kilograms of proeutectoid ferrite form? kg [The tolerance is +/- 2.0%.] (b) How many kilograms of eutectoid ferrite form? kg [The tolerance is +/- 2.0%.] (c) How many kilograms of cementite form? kg [The tolerance is +/- 2.0%.] Composition =...
A steel alloy contains 94.4 wt% Fe, 5.0 wt% Mo, and 0.6 wt% C. Using Animated Figure 9.34 and Animated Figure 9.35 determine the following: (a) The eutectoid temperature of this alloy. C [The absolute tolerance is +/- 20.] (b) The eutectoid composition. wt%C [The absolute tolerance is +/- 0.02.]
5 Three steels with a composition of Fe-0.2 wt.% C, Fe-0.76 wt.% C and Fe-1.1 wt.% Care produced by melting and slowly cooling down to room temperature. By referring the phase diagram provided in figure 3, what would you expect in terms of phase changes (solidification sequence) in all three alloys as the temperature of the alloys reduces from melting temperature to room temperature? What will be the approximate weight fraction of each of those micro constituents at room temperature...
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