SHOW THE BCC AND FCC phases and if there is order bcc and explain each one
SHOW THE BCC AND FCC phases and if there is order bcc and explain each one...
1. State the difference between I and polycrystalline materials. Deformability of BCC and FCC metals. Strength and UTS of metals. 2. Determine the slip systems in BCC and FCC materials. Show the calculations that support your determinations. 3. Find the indices that represent the planes in the following cubic unit cell and show the X-Ray diffract-ability of the these planes in FCC and BCC structures: 4. A tensile specimen with a 12 mm initial diameter and 50 mm gauge length...
2.9 Describe FCC, BCC, and HCP lattice structures. 2.10 Two hypothetical metals are created with different elements that have the same atomic mass (g/mole) and the same atomic radius. Metal A has a density of 9.50 g/cm3 and metal B has a density of 8.73 g/cm3. If one of these metals has a BCC lattice structure and the other has an FCC lattice structure, identify the structure that corresponds to each of one of them. Justify your answer. 2.12 Referring...
(a) Differentiate between Face- Centered Cubic (FCC) and Body-Centered Cubic (BCC) crystal structures. Why FCC metals are more ductile than BCC metals? 5 marks) (ii) show the relationship between the unit cell edge length, a, and the atomic radius, R, for a BCC crystal. Iron has a BCC crystal structure, an atomic radius of 0.124 nm, and atomic weight of 55.85 g/mol. Calculate its theoretical density Given: Avogardo's Number is 6.02 x 105 atoms/mol (5 marks) Figure 1 Determine the...
find composition of all phases present for 75%wt Ag and 25%wt Cu at 700 C can you answer parts a b and c please. need it asap in 40 mins °C 110) Atomic percent silver 30 10 SO 10 20 60 70 F 80 90 T 1084.5 1200 10X0X0 1 961.93 1700 900 1. + 1600 1+B SOX a B 780 1400 7.9 71.9 91.21 7080 1200 60X) + B 1000 SCO 850 - 1 1 400 Cu 1 20...
dy Consider the following diffraction pattern, in which the five lowest order peaks are labelled with their Miller Indices. (200) (220) (420) (400) (22) 80 70 60 50 40 30 20 2 θ (degrees) Assuming that the crystal only contains a single type of atom, is the crystal body centred cubic (BCC) or simple cubic (SC)? Explain your reasoning. There is no need to consider other possible structures or the intensity.
11. (8 points) Give the answer to each question about solid state structures in the space provided. Remember to show your work. 240.7So Tungsten metal packs in the body-centered cubic (BCC) structure. If the body diagonal of the unit cell is 556 pm, what is the atomic radius of a tungsten atom? d-N30 24.hpm Nickel metal packs in the face-centered cubic (FCC) structure. If the body diagonal of the unit cell is 607 pm, what is the atomic radius of...
Question 3 (Total 17 marks)- °C 1100 Atomic percent silver 40 50 10 20 30 60 70 80 90 F 1084.5 1900 1000 L 900 1. + 961.93) 1700 1600 L+B 1400 91.2 800 a B 780° 7.9 71.9 700 1200 600 -- 1000 500 850 400 Cu 10 20 30 70 SO 90 Ag 40 SO 60 Weight percent silver Above is a phase diagram of Cu - Ag.- (a) Which phase(s) exist at 80%wt Ag, 20%wt Cu at...
Engineering Materials I will give a thumbs up! PLEASE HELP!! SHOW ALL WORK! 10. Given the Mg-Ca phase diagram: Alomic Percent Calcium 30 40 30 10 20 1000 60 70 80 90 100 800 842°c) L 716°C 050°c Temperature °C 600 (Ca) 610°C 134 16.2 44.5°C 400 -(Mg) 443°c Mr. Ca (aCa) 200- 0 10 20 30 40 80 70 60 Weight Percent Calcium 84 Mg 90 100 Ca For a 60% Mg-40% Ca alloy (weight %), what are i.)...
Sort the array of intergers into ascending order: 80 90 70 85 60 40 50 95. Assume 95 is the pivot. Show the two groups generated after the partition. O (80 90 70 85 60 40 50) and 0 O (40) and (50 60 70 80 85 90 40) O () and (50 60 70 80 85 90 40) O and (80 50 60 70 85 90 40)
3. You are given the following MPC’s, for each one calculate (show work) the MPS and the Multiplier a. MPC = .80 B. MPC = .40 c. MPC = .67 D. MPC = .33 4. You are given the following MPS’s, for each one calculate (show work) the MPC and the Multiplier a. MPS = .50 B. MPS = .75 c. MPS = .30 D. MPS = .25 5. If the multiplier was equal to 2.50, explain what impact the...