Problem 174

About This Presentation

Title:

Description:

Number of Views:69

Avg rating:3.0/5.0

Slides: 10

Provided by: ninabo

Category:

Tags: bordeaux | problem

Transcript and Presenter's Notes

Title: Problem 174

1
Problem 174
February 7, 2007 Nina Bordeaux

2
Motivation

We have claimed that slip (linear dislocations)
occurs along closely packed directions and now we
will find out why.

3
Linear Dislocations

There are two types of linear dislocations, edge
and screw, but they usually exist as a mix.
Edge dislocations are as if there are an extra
half-plane of atoms, so that a defect is created
in the regular crystal structure along the line
where the extra half-plane ends
Screw dislocations are as if a portion of the
crystal moved laterally compared to a neighboring
portion.
Both types of dislocation can be described by a
Burgers vector.
In this problem, we do not care whether the
dislocation is edge or screw.

4
Burgers Vectors

describe the magnitude and direction of the
lattice distortion associated with a dislocation.
The directions are given in the problem statement
(111, 110, and 100).
goes from the center of one atom to the center of
the next atom.

5
Burgers Vectors in BCC
6
Eb

energy required to move an atom along a Burgers
vector.
It should not be confused with the energy
required to create a dislocation, which affects a
large portion of the lattice and must take into
account the energy required to disturb many
atoms.

7
Procedure

8
Results

energy required to dislocate an atom in the 110
and 100 directions is higher than the energy
required to dislocate an atom in the 111
direction.
Therefore slip is most likely to occur in the
111 direction.
These results are expected since the 111
direction has the greatest linear density.

9
Questions?

Write a Comment

User Comments (0)