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• W2012029472 abstract "For rolling and compression deformation of L12 polycrystals the texture development, the rotation velocities of the crystals and the Taylor factors are modelled by use of Taylor type models with respect to activation of octahedral and cube slip system. Whereas in the case of rolling, the simultaneous activation of cube and octahedral slip leads to a very sharp maximum of {112}<111 >; (C) and to the degradation of {110}<112 >; (B), in the case of compression deformation, a new texture component <210 >; is predicted. When cube and octahedral slip systems are simultaneously active, for both modes of deformation the resulting Taylor factors are similar for all relevant texture components. The rotation velocities of the crystals are weakly affected by the variation of active slip systems. In order to check the compression textures predicted, the results were compared to experimentally detected textures. Fu¨r Walz- und Druckverformung von L12 Polykristallen wurden die Texturentwicklung, die Rotationsgeschwindigkeiten der Kristalle und die Taylorfaktoren mit Hilfe von Taylormodellen unter Beru¨cksichtigung des Beitrags oktaedrischer und kubischer Gleitsysteme modelliert. Wa¨hrend die geichzeitige Beta¨tigung von kubischer und oktaedrischer Gleitung zu einem scharfen Maximum von {112}<111 >; (C) und zum Absinken von {110}<112 >; (B) fu¨hrt, wird fu¨r Druckverformung eine neue Texturkomponente <210 >; vorhergesagt. Fu¨r beide Verformungsmoden werden im Falle gleichzeitiger Aktivierung kubischer und oktaedrischer Gleitsysteme die resultierenden Taylorfaktoren fu¨r alle relevanten Texturkomponentena¨hnlich. Die Rotationsgeschwindigkeiten der Ko¨rner werden von derA¨nderung der aktiven Gleitsysteme nur unwesentlich beeinflußt. Die vorhergesagten Drucktexturen wurden einer experimentellenU¨berpru¨fung unterzogen." @default.
• W2012029472 created "2016-06-24" @default.
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• W2012029472 date "1995-04-01" @default.
• W2012029472 modified "2023-09-26" @default.
• W2012029472 title "Modelling of active slip systems, Taylor factors and grain rotations during rolling and compression deformation of polycrystalline intermetallic L12 compounds" @default.
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• W2012029472 doi "https://doi.org/10.1016/0956-7151(94)00340-n" @default.
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