A binary phase diagram of material A and material B with 36.4 weight %B is at a temperature where both solids and liquids are present.
If the intersection with the liquidus line (on the left) at this temperature is 5.3 weight %B and the intersection with the solidus line (on the right) is 70.1 weight %B, determine the amount of solid present in the liquid solid combination in %. Answer in % without the symbol.
A binary phase diagram of material A and material B with 36.4 weight %B is at...
URGENT Question 3 Consider a binary eutectic phase diagram, shown in the figure below, where substances A and B, which have partial solubility within each other in the solid state, will form the solid a and solid B solution phases. See the eutectic phase diagram containing the partial resolution and explain in detail the phases obtained by drawing the change graphs of the mixture with the mixture of Gibbs free energy at different temperatures. Constants: R=2 cal/molK= 8.32 J/molK=0.082 liter...
A binary eutectic alloy of material A and material B with 43.3 weight %B is cooled from a liquid state. If the maximum solubility of material B in material A is 11.3 weight %B and the Eutectic amount of material B in material A is 68 weight %B, determine the amount of eutectic in the room temperature alloy. Answer in % without the symbol.
The figure shows Binary eutectic phase diagram of two alloy components A and B. The entities P, Q and R denote Liquid Temperature R Liq+B A+Liq P. - - 1 TA+B 1 Solid - A B Composition CP A. Eutectic temperature B. Liquidus Eutectic composition C. R
Based on the diagram below, what would be the weight percent of the solid at point N? (Give your answer in %, so if you calculate 0.10 or 10%, enter as 10) 400 L A LIQUID M 300 LIQUIDUS LIQUIDUS L+B a+L SOLIDUS DHSOLIDUS 97.5% B 200 C SOLIDUS 183°C 19.2% 61.9% 100 R* R R 100 Pure Sn 80 60 40 20 Pure Pb Composition in wt.% Sn Temperature (Do OOLVUS SOLVUS Based on the diagram below, what would...
2800 2400 E 2000 1600 40 80 Rh 20 60 Mo γ+p weight percent rhodium a. On the phase diagram provided above, identify all solid solutions, intermetallics and two-phase regions. (you can write SS, I, and/or P 2 on the diagram) b. Determine the phases present and the compositions of these phases for a 30%Rh and a 60%Rh alloy at 2000 C. c. Identify a liquidus, a solidus, and a solvus line on the phase diagram. d. Design two possible...
Two metals A (melting point 800°C) and B (melting point 650°C) form a binary isomorphous system. An alloy containing 45 wt% metal B is found to consist of 75 wt% solid and the remainder liquid whereas an alloy containing 55 wt% metal B is found to consist of 35 wt% solid at 700°C. Draw the phase diagram that you would expect for this alloy system and estimate the composition of the solidus and the liquidus at 700 °C
Percent weight of material A 50 75 25 Melting temperature of material A Liquid Liquid and solid Melting temperature of material B Solid 0 25 50 Percent weight of material B 75 100 Consider an alloy of two soluble components A and B shown in the phase diagram. Determine the masses of the alloy that are in liquid and solid phases at a given temperature if the total mass of the alloy is 100 g, component B represents 60% of...
1. Chapter 9: Questions and Problem 9.7 (20 points, 10 points each) (a) Given here are the solidus and liquidus temperatures for the germanium-silicon system. Construct the phase diagram for this system and label each region. (b) Based on the phase diagram you constructed from above data, determine in (i) wt% and in (ii) weight fraction of Liquid phase and Solid phase at Si composition of 20 wt% at 1100C. (40 points) Composition (wt% Si) Solidus Temperature (°C) Liquidus Temperature...
how much is alpha and beta ? a) Construct and label a binary Phase diagram if you are given the following data: Metal A - melt point 600°C; Metal B - melt point 500°C; Eutectic Composition at 60%B-melt point 400°C) Metal A and B are partially soluble in the solid state and completely soluble in the liquid state: Solid solution of B in A - maximum 5%; Solid solution of A in B - maximum 2% Temperature [°C] NET 30...
1. Below is the phase diagram of Pb-Sn alloy. (a) Describe what happens to a 20%-Pb 80%-Sn alloy as temperature decreases from 300 °C to 50 °C; use sketches as needed. (b) When temperature is kept constant at 200 °C, describe what happens as the Sn concentration is increased from 10 wt% to 90 wt%; use sketches as needed. 100% Liquid Procutectic α 24% Eutectic α Liquid 76% Eutectic β Alloy I Alloy 2 Liquid 49% 327 Liquidus 300 Liquid...