Effect of Circuit Inductance on Ceramics Joining by Titanium Foil Explosion

Takada Yoshihiro, Takaki Koichi, Itagaki Minoru, Mukaigawa Seiji, Fujiwara Tamiya, Ohshima Shuzo, Takahashi Ikuo, Kuwashima Takayuki

doi:10.1541/ieejfms.123.884

This article describes the influences of circuit inductance on alumina (Al₂O₃) tile joining using explosive titanium foil. Several kAs pulse current was supplied from 8.28 µF storage capacitor to the 50 µm thickness titanium foil which was sandwiched between the Al₂O₃ tiles with pressure of 8.3 MPa. The temperature of the foil was rapidly increased owing to ohmic heating with the large current, and then the foil was liquefied and vaporized. The Al₂O₃ tiles were successfully bonded when the input energy to the titanium foil was higher than the energy required for the foil vaporization. The bonding strength increases with increasing the energy input to the foil. However, the foil explosion cracked the tiles when the input energy exceeds a critical value. Increasing the circuit inductance from 1.13 µH to 64.8 µH, the critical energy of tile cracking increase from 160 J to 507 J, respectively. the maximum bonding strength of 330 kg was obtained when the circuit inductance was 21.8 µH. An investigation of the interfacial structure of the joints using electron probe micro-analysis revealed that distinct reaction areas existed in the interlayer.

Effect of Circuit Inductance on Ceramics Joining by Titanium Foil Explosion

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Effect of Circuit Inductance on Ceramics Joining by Titanium Foil Explosion

Bibliographic Information

Search this article

Abstract

Journal

Citations (1)*help

References(21)*help

Related Projects

Keywords

Details 詳細情報について

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