%0 Journal Article
%T The temperature dependence of elasticity modulus for TiAl and Ni3Al ¨C basic alloy components for turbine rotor blade. §´§Ö§Þ§á§Ö§â§Ñ§ä§å§â§ß§Ñ§ñ §Ù§Ñ§Ó§Ú§ã§Ú§Þ§à§ã§ä§î §Þ§à§Õ§å§Ý§ñ §å§á§â§å§Ô§à§ã§ä§Ú §Ú§ß§ä§Ö§â§Þ§Ö§ä§Ñ§Ý§Ý§Ú§Õ§à§Ó TiAl §Ú Ni3Al ¨C §à§ã§ß§à§Ó§ß§í§ç §Ü§à§Þ§á§à§ß§Ö§ß§ä§à§Ó §ã§á§Ý§Ñ§Ó§à§Ó §Õ§Ý§ñ §Ý§à§á§Ñ§ä§à§Ü §Ô§Ñ§Ù§à§Ó§í§ç §ä§å§â§Ò§Ú§ß.
%A §ª. §·. §¢§Ñ§Õ§Ñ§Þ§ê§Ú§ß
%A §°. §ª. §¬§å§ã§à§Ó§Ñ
%J Vestnik UGATU
%D 2013
%I Ufa State Aviation Technical University
%X Possibility of theoretical determination of elastic characteristics for intermetallides on the example of TiAl and Ni3Al on the base of electrostatic nature of elasticity is demonstrated. Elaborated method is able for using for computing modeling of mono- and polycrystal materials under conditions of experimental data absence. §±§â§Ú§Ó§Ö§Õ§Ö§ß§í §â§Ö§Ù§å§Ý§î§ä§Ñ§ä§í §ä§Ö§à§â§Ö§ä§Ú§é§Ö§ã§Ü§à§Ô§à §à§á§â§Ö§Õ§Ö§Ý§Ö§ß§Ú§ñ §ä§Ö§Þ§á§Ö§â§Ñ§ä§å§â§ß§à§Û §Ù§Ñ§Ó§Ú§ã§Ú§Þ§à§ã§ä§Ú §Þ§à§Õ§å§Ý§ñ §À§ß§Ô§Ñ §ß§Ñ §à§ã§ß§à§Ó§Ö §ï§Ý§Ö§Ü§ä§â§à§ã§ä§Ñ§ä§Ú§é§Ö§ã§Ü§à§Û §á§â§Ú§â§à§Õ§í §å§á§â§å§Ô§à§ã§ä§Ú §Ú§ß§ä§Ö§â§Þ§Ö§ä§Ñ§Ý§Ý§Ú§Õ§à§Ó §ß§Ñ §á§â§Ú§Þ§Ö§â§Ö TiAl §Ú Ni3Al. §²§Ñ§Ù§â§Ñ§Ò§à§ä§Ñ§ß§ß§í§Û §Þ§Ö§ä§à§Õ §Þ§à§Ø§ß§à §Ú§ã§á§à§Ý§î§Ù§à§Ó§Ñ§ä§î §Õ§Ý§ñ §Ü§à§Þ§á§î§ð§ä§Ö§â§ß§à§Ô§à §Þ§à§Õ§Ö§Ý§Ú§â§à§Ó§Ñ§ß§Ú§ñ §Þ§à§ß§à- §Ú §á§à§Ý§Ú§Ü§â§Ú§ã§ä§Ñ§Ý§Ý§Ú§é§Ö§ã§Ü§Ú§ç §Þ§Ñ§ä§Ö§â§Ú§Ñ§Ý§à§Ó §Ó §å§ã§Ý§à§Ó§Ú§ñ§ç §à§ä§ã§å§ä§ã§ä§Ó§Ú§ñ §ï§Ü§ã§á§Ö§â§Ú§Þ§Ö§ß§ä§Ñ§Ý§î§ß§í§ç §Õ§Ñ§ß§ß§í§ç.
%K Modulus of elasticity
%K monocrystal
%K polycrystal
%K intermetallides
%K turbine rotor blade.
%U http://www.journal.ugatu.ac.ru/index.php/vestnik/article/view/249