A shrink-fit giant magnetostrictive ultrasonic tool holder, comprising: a holder housing (1) provided with a first central hole (10); a transducer provided in the first central hole (10) and in clearance fit with the inner wall of the holder housing (1); a horn (3) made out of magnetic conductive stainless steel, the horn (3) being connected to the transducer, the end face of the horn (3) contacting the transducer being provided on a plane having the maximum amplitude of vibration, the horn (3) being provided with a conical structure (32) on a plane having a minimum amplitude, the holder housing (1) being correspondingly provided with a conical hole (11) matching the conical structure, the conical structure (32) of the horn (3) being pressed against the conical hole (11), and a tool mounting hole (34) being provided at the central position of the end of the horn (3) away from the transducer; and a tool (4) made out of a hard alloy and tightly fixed in the tool mounting hole (34) in shrink-fit fashion. The conical fixation structures of the horn (3) and the holder housing (1) on a nodal plane ensure the axiality of mounting and ensure that a pretension state of an ultrasonic vibrator is not influenced by load impacts, thereby improving the load resistance capability of a giant magnetostrictive ultrasonic machining system.L'invention concerne un porte-outil à ultrasons magnétostrictif géant à ajustement fretté, comprenant : un boîtier de support (1) pourvu d'un premier trou central (10) ; un transducteur disposé dans le premier trou central (10) et en ajustement avec jeu avec la paroi interne du boîtier de support (1) ; un émetteur (3) réalisé en acier inoxydable conducteur magnétique, l'émetteur (3) étant relié au transducteur, la face d'extrémité de l'émetteur (3) en contact avec le transducteur étant disposé sur un plan présentant l'amplitude maximale de vibration, l'émetteur (3) étant pourvu d'une structure conique (32) sur un plan présentant une amplitude minimal
