Figure 2 shows a part of Copper (Cu)-Stamun( So) phase disgram. Based on Figure 2 answer the foll...
4 Based on the given Cu-Zn phase diagram in figure 1, identify all the microstructural changes in terms of phases changes) for Cu-30 wt% Zn and Cu-40 wt.% Zn alloy when they are slowly cooled down to room temperature from their melting temperatures. What are the temperatures where phase changes occur during solidification of the alloys? 4 Based on the given Cu-Zn phase diagram in figure 1, identify all the microstructural changes in terms of phases changes) for Cu-30 wt%...
4. Based on the given Cu-Zn phase diagram in figure 1, identify all the microstructural changes in terms of phases changes) for Cu-30 wt.% Zn and Cu-40 wt.% Zn alloy when they are slowly cooled down to room temperature from their melting temperatures. What are the approximate temperatures where phase changes occur during solidification of the alloys? Composition at% Zn) 60 80 1200 100 12200 2000 Liquid 1000 7 1800 BOL 1600 800 1400 1 (9.) orada 1 Emperature (F)...
Based on the given Cu-Zn phase diagram in figure 1, identify all the microstructural changes (in terms of phases changes) for Cu-30 wt% Zn and Cu-40 wt.% Zn alloy when they are slowly cooled down to room temperature from their melting temperatures. What are the temperatures where phase changes occur during solidification of the alloys? 100 12:00 - - E Ha 1 sam 40 200 Figure 1: Cu-Zn Phase Diagram (Ref: Mat. Sc. and Eng., W.D. Callister)
Material Science!!! The Cu-Sn phase diagram has historical significance as this alloy is known as bronze. The ability to make a bronze alloy changed civilization since bronze has a higher yield strength than pure copper. Cu-Sn alloys also have modern applications in electronics as a basis for the replacement of lead based solders. Answer the following questions, relative to this diagram What is the melting point of pure Cu? What is the melting point of pure Sn? What is the...
6. Consider the Ti-Ni system in the figure below. Atomic Percent Nickel 20 I800 1600 L 1450C 1400 200 TIN (Ni) 1000 Un) re s00 Hati) s00 Ti Weight Percent Nickel N a. What are the melting temperatures of pure Ni and pure Ti? b. Label the liquidus and solidus lines in the figure. c. Label al field containing two phases in the figure. d. What is the maximum solubility of Ni in a-Ti and Ti in Ni? e. Write...
1. From the phase diagram for a binary mixture of titanium and nickel, find: a. label the two-phase regions with the phases present in each case. b. The phase or phases present in a mixture of 2g nickel with 48g titanium @ 1000C c. Amount of additional nickel in g required for the alloy to start to form a liquid at 1000C. d. Composition of the first liquid that starts to form as nickel is added to this alloy e....
The following is the phase diagram for the lead-tin alloy: Pb-Sn Phase Diagram Composition (at% Sn) 100 300 500 200 83 C 61.9 97.8 300 100 100 100 Consider a lead-tin alloy containing 30 wt% Sn slowly (equilibrium) cooled from the liquid phase starting at 300°C. During this cooling process, the temperature of this alloy reaches 183.1° C (just above the eutectic temperature) and is held at this point of interest until equilibrium conditions are met. 1. (4 points) Draw...
2. [25 points] The following figure shows the phase diagram of Cu-Ag alloy system. A mixture of Ag and Cu with a eutectic composition (or concentration) is heated to a high temperature and keep for enough time to prepare the material into a uniform liquid state. The material is then cooled down to 800°c. Cu-Ag System 1200 Liquid 800 A 600 400 100 80 60 40 20 wt% Ag a) What is the Ag composition in the original material so...
1 picture- problem 2 other pictures- phase diagrams for problem 1. Draw a phase diagram for a binary eutectic alloy with solid solubility, naming and describing the significance of the main features. The binary alloy system of metals A and B contains two intermediate (intermetallic) phases A B and AB2 of narrow composition range, each of which forms by a peritectic reaction A cutectic point also exists, at 85at% B. The melting point of A is higher than that of...
2. [25 points] The following figure shows the phase diagram of Cu-Ag alloy syst em. A mixture of Ag and Cu with a eutectic composition (or concentration) is heated to a high temperature and keep for enough time to prepare the material into a uniform liquid state. The material is then cooled down to 800°C. Cu-Ag System 1200p Liquid 1000 800 A B. 600 400 200 100 80 60 40 20 wt% Ag (o) What is the Ag composition in...