**1. Plastic Deformation Occurs Through Dislocation Motion...**In order to make a material stronger, we should prevent dislocations from moving. For each of the following alloys, identify the strengthening mechanism and explain how it impedes dislocation motion:**A.** An aluminum alloy “inoculated” with TiB₂ during solidification, producing a large number of small grains.**B.** Monel, a corrosion-resistant solid solution of Ni and Cu.**C.** An aluminum-lithium aerospace alloy containing precipitates of Al₃Li.**D.** Wrought iron, which is often worked into complex shapes such as railings or furniture.

Strengthening mechanisms in materials are designed to avoid dislocation motion, and also to enhance…

Answered: 1 Plastic Deformation Occurs Through…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Explain the following, using dislocation theory: metal strengthening by: (a) grain size (b) solid solution strengthening (c) strain hardening (d) quenching in cold water following heating close to melting pt ( hint: Nv = Nexp(-Qv/kT)
Please provide a detailed solution. Explanation required for the formula used.
explain also.
Question-6. For solidification of a piece of FCC-metal at 860 °C. The melting point of the metal is 1260 °C. The latent heat of fusion and surface free energy are -2.16 x108 J/m³ and 0.126 J/m², respectively. If nucleation is homogeneous, answer the following questions: (a) Compute the critical radius r* in nm (b) Compute the activation free energy AG* in J (c) If the lattice parameter is 0.26 nm at the melting temperature, compute the number of atoms found in a nucleus of critical size (d) Compute the critical radius at the supercooling degree of 260 K.
Cite the phases that are present and the phase compositions for the following alloys: 15 wt% Sn–85 wt% Pb at 100°C
Sketch following modes of dislocation motion and name conditions that help them occur: 1. Cross slip 2. Climb up & climb down
do not provide wrong solution
What process will result in Ferrite plus Pearlite microstructure? List the reasons why this structure will have low strength.
Select barriers to the motion of dislocations: Other dislocations Precipitates Grain boundaries between the same or different phases Strains in crystal lattices Interstitial and substitutional alloying elements
Identify the microstructures of each of expected to be found in each of these alloys 1095 furnace cooled from 1650 farenheight 1095 air cooled from 1650 farenheight 1095 water quenched from 1650 farenheight
Calculate the approximate total dislocation line length(or range of lengths) expected in a cubic cm of a very highlycold-worked metal.
room temperature plastic deformation of pure lead (pb), with recrystallization temperature of -4, will enhance its: a. tensile strength b. modulus of elasticity c.ductility d. none of the above please explain

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