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2. Burgers vector - Wikipedia

   en.wikipedia.org/wiki/Burgers_vector

   The Burgers vector will be the vector to complete the circuit, i.e., from the start to the end of the circuit. [2] One can also use a counterclockwise Burgers circuit from a starting point to enclose the dislocation. The Burgers vector will instead be from the end to the start of the circuit (see picture above). [3]

3. Sheet metal - Wikipedia

   en.wikipedia.org/wiki/Sheet_metal

   In most of the world, sheet metal thickness is consistently specified in millimeters. In the U.S., the thickness of sheet metal is commonly specified by a traditional, non-linear measure known as its gauge. The larger the gauge number, the thinner the metal. Commonly used steel sheet metal ranges from 30 gauge to about 7 gauge.

4. Lomer–Cottrell junction - Wikipedia

   en.wikipedia.org/wiki/Lomer–Cottrell_junction

   The sessile nature of the Lomer–Cottrell dislocation forms a strong barrier to further dislocation motion. Trailing dislocations pile up behind this junction, leading to an increase in the stress required to sustain deformation. This mechanism is a key contributor to work hardening in ductile materials like aluminum and copper. [2]

5. Slip (materials science) - Wikipedia

   en.wikipedia.org/wiki/Slip_(materials_science)

   Lattice configuration of the slip plane in a bcc material. The arrow represents the Burgers vector in this dislocation glide system. Slip in body-centered cubic (bcc) crystals occurs along the plane of shortest Burgers vector as well; however, unlike fcc, there are no truly close-packed planes in the bcc crystal structure. Thus, a slip system ...

6. Dislocation - Wikipedia

   en.wikipedia.org/wiki/Dislocation

   The Burgers vector is normal to the {111} glide plane so the dislocation cannot glide and can only move through climb. [ 1 ] In order to lower the overall energy of the lattice, edge and screw dislocations typically disassociate into a stacking fault bounded by two Shockley partial dislocations. [ 18 ]

7. Creep (deformation) - Wikipedia

   en.wikipedia.org/wiki/Creep_(deformation)

   The phenomenological equation which describes Harper–Dorn creep is = where ρ 0 is dislocation density (constant for Harper–Dorn creep), D v is the diffusivity through the volume of the material, G is the shear modulus and b is the Burgers vector, σ s, and n is the stress exponent which varies between 1 and 3.

8. File:Burgers Vector and dislocations (screw and edge type).svg

   en.wikipedia.org/wiki/File:Burgers_Vector_and...

   English: An illustration of the burgers vector in a screw and edge dislocation For more info, I highly recommend "The Physics of Semiconductors" by Marius Grundmann, DOI: 10.1007/978-3-642-13884-3 Date

9. Crystallographic defect - Wikipedia

   en.wikipedia.org/wiki/Crystallographic_defect

   The dislocation line is presented in blue, the Burgers vector b in black. Edge dislocations are caused by the termination of a plane of atoms in the middle of a crystal. In such a case, the adjacent planes are not straight, but instead bend around the edge of the terminating plane so that the crystal structure is perfectly ordered on either side.