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Nissan has developed a second generation ceramic turbocharger rotor which provides greater reliability and higher performance than a conventional ceramic rotor. The new rotor is made of silicon nitride, which has demonstrated sufficient strength in vehicle applications. The bonding technique for joining the ceramic rotor to the metal shaft has been confirmed through experimentation to have sufficient reliability. The second generation rotor is featured by the low stress design and higher dynamic strength, and two factors contribute to its higher reliability. The rotor shape was optimized on the basis of results obtained in two analyses of particle impact resistance and applied combined stress. Test results show that the reliability of the second generation rotor have been substantially improved over those of the conventional rotor now being used on production vehicles.

Nissan utilizes ceramics in the turbine rotor of turbochargers to improve acceleration response by reducing the inertia weight of the turbine rotor. Since ceramic material does not yield, a high degree of localized stress will cause it to fail. Therefore, in order to be able to apply this brittle material to a high-speed rotor under high-stress conditions, silicon nitride material has been improved, and a low-stress shape employing the three-dimensional finite element method developed. Furthermore, a new technique for bonding the ceramic rotor to a metal shaft is employed in order to reduce residual stress caused by the difference in thermal expansion coefficients between the ceramic and metal materials. Since the strength of ceramics varies widely, it was necessary to confirm the reliability of the ceramic rotor and evaluate its life of fatigue. This paper, then, describes the design philosophy, bonding method, reliability and durability of the ceramic rotor.