STACKING FAULTS AND DISLOCATION DISSOCIATION IN MoSi2

• Authors: ČÁK Miroslav; ŠOB Mojmír; PAIDAR Václav; VÍTEK Václav
• Year of publication: 2009
• Type: Article in Proceedings
• Conference: Advanced Intermetallic-Based Alloys for Extreme Environment and Energy Applications
• MU Faculty or unit: Faculty of Science
• Web: http://www.mrs.org/s_mrs/sec_subscribe.asp?CID=16789&DID=217001
• Field: Solid matter physics and magnetism
• Keywords: stacking faults; dislocation dissociation; molybdenum disilicide
• Description: We present the g-surfaces for the (013) and (110) planes calculated by employing the density functional based method as implemented in the VASP code. While there is only one minimum on the (110) g-surface, three distinct minima have been found on the (013) g-surface. These minima, which determine three types of possible stacking faults on the (013) plane, are not symmetry dictated and thus the fault vectors are to a great extent controlled by the details of the interatomic bonding in MoSi2

Related projects

• Physical and chemical properties of advanced materials and structures
• Theoretical studies of grain boundaries with point defects and their aggregates