We give a proof of strong normalizability of the typed &lgr;-calculus extended by an arbitrary convergent term rewriting system, which provides the affirmative answer to the open problem proposed in Breazu-Tannen [1]. Klop [6] showed that a combined system of the untyped &lgr;-calculus and convergent term rewriting system is not Church-Rosser in general, though both are Church-Rosser. It is well-known that the typed &lgr;-calculus is convergent (Church-Rosser and terminating). Breazu-Tannen [1] showed that a combined system of the typed &lgr;-calculus and an arbitrary Church-Rosser term rewriting system is again Church-Rosser. Our strong normalization result in this paper shows that the combined system of the typed &lgr;-calculus and an arbitrary convergent term rewriting system is again convergent. Our strong normalizability proof is easily extended to the case of the second order (polymorphically) typed lambda calculus and the case in which &mgr;-reduction rule is added.

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	7	P. Martin-Lof, "Hauptsatz for the Theory of Species", in Proceedings of the Second Scandinavian Logic Symposium, ed. Fenstad, 1971, pp. 217-233.
	8	M. Okada, Introduction to Proof Theory for Computer Science, Lecture Notes, Laboratoire de Recherche en Informatique, Universi~e de Paris XI, Orsay, France, 1988.
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	10	Yoshihito Toyama, On the Church-Rosser property for the direct sum of term rewriting systems, Journal of the ACM (JACM), v.34 n.1, p.128-143, Jan. 1987  [doi>10.1145/7531.7534]

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