close
Dislocations in Solids: A Tribute to F.R.N. Nabarro | Zookal Textbooks | Zookal Textbooks
  • Author(s) John P. Hirth
  • Edition1
  • PublishedSeptember 2011
  • PublisherElsevier S & T
  • ISBN9780444531667
New models for dislocation structure and motion are presented for nanocrystals, nucleation at grain boundaries, shocked crystals, interphase interfaces, quasicrystals, complex structures with non-planar dislocation cores, and colloidal crystals. A review of experimentally established main features of the magnetoplastic effect with their physical interpretation explains many diverse results of this type. The model has many potential applications for forming processes influenced by magnetic fields.

• Dislocation model for the magnetoplastic effect
• New mechanism for dislocation nucleation and motion in nanocrystals
• New models for the dislocation structure of interfaces between crystals with differing crystallographic structure
• A unified view of dislocations in quasicrystals, with a new model for dislocation motion
• A general model of dislocation behavior in crystals with non-planar dislocation cores
• Dislocation properties at high velocities
• Dislocations in colloidal crystals

Dislocations in Solids: A Tribute to F.R.N. Nabarro

Format
Get it instantly

Zookal account needed

$477.99
Add Zookal Study FREE trial and save a further 10% 

NEW PRICE

$430.19 + free shipping

(10% off - save $47.80)

Zookal Study Free trial

14-day FREE trial. $14.95/mo after. Cancel anytime.

*Discount will apply at checkout.

 See terms and conditions

You will get a further 10% off for this item ($430.19 after discount) because you have added Zookal Study Premium Free Trial to your bag.

For this discount to apply, you will need to complete checkout with the Zookal Study Premium Free Trial in your bag.

-
+
  • Author(s) John P. Hirth
  • Edition1
  • PublishedSeptember 2011
  • PublisherElsevier S & T
  • ISBN9780444531667
New models for dislocation structure and motion are presented for nanocrystals, nucleation at grain boundaries, shocked crystals, interphase interfaces, quasicrystals, complex structures with non-planar dislocation cores, and colloidal crystals. A review of experimentally established main features of the magnetoplastic effect with their physical interpretation explains many diverse results of this type. The model has many potential applications for forming processes influenced by magnetic fields.

• Dislocation model for the magnetoplastic effect
• New mechanism for dislocation nucleation and motion in nanocrystals
• New models for the dislocation structure of interfaces between crystals with differing crystallographic structure
• A unified view of dislocations in quasicrystals, with a new model for dislocation motion
• A general model of dislocation behavior in crystals with non-planar dislocation cores
• Dislocation properties at high velocities
• Dislocations in colloidal crystals
translation missing: en.general.search.loading