. . . "Kope\u010Dek, Jarom\u00EDr" . . "I, P(GA101/09/0702), P(GAP107/11/0391)" . . . "Seiner, Hanu\u0161" . "48" . . "5"^^ . "Differently mobile twin boundaries and magnetic shape memory effectin 10 M martensite of Ni\u2013Mn\u2013Ga"@en . "12" . . "Straka, L." . "0025-5408" . "Materials Research Bulletin" . "69661" . "Heczko, Oleg" . "RIV/68378271:_____/13:00399322!RIV14-GA0-68378271" . "Differently mobile twin boundaries and magnetic shape memory effectin 10 M martensite of Ni\u2013Mn\u2013Ga" . . . . . . "We investigated twin boundaries with sharply different mobility or twinning stress in five-layered modulated (10 M) martensite of Ni\u2013Mn\u2013Ga exhibiting magnetic shape memory effect or magnetically induced reorientation. Different mobility is ascribed to the different microstructures of the macrotwin planar interface. In monoclinic approximation the mobile boundaries are of Type I and Type II with complex microstructure of adjoining variants. These boundaries respond differently to magnetic field. For Type II boundary the reorientation takes place at very low field 250 Oe."@en . . . "Differently mobile twin boundaries and magnetic shape memory effectin 10 M martensite of Ni\u2013Mn\u2013Ga"@en . "[EF15333AB1E6]" . "GB - Spojen\u00E9 kr\u00E1lovstv\u00ED Velk\u00E9 Brit\u00E1nie a Severn\u00EDho Irska" . "2"^^ . "intermetallic compounds; crystal growth; X-ray diffraction; mechanical properties; magnetic properties"@en . "4"^^ . . "Differently mobile twin boundaries and magnetic shape memory effectin 10 M martensite of Ni\u2013Mn\u2013Ga" . "000327559700029" . "10.1016/j.materresbull.2013.04.034" . . . . "We investigated twin boundaries with sharply different mobility or twinning stress in five-layered modulated (10 M) martensite of Ni\u2013Mn\u2013Ga exhibiting magnetic shape memory effect or magnetically induced reorientation. Different mobility is ascribed to the different microstructures of the macrotwin planar interface. In monoclinic approximation the mobile boundaries are of Type I and Type II with complex microstructure of adjoining variants. These boundaries respond differently to magnetic field. For Type II boundary the reorientation takes place at very low field 250 Oe." . . "RIV/68378271:_____/13:00399322" . .