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Key words£ºlarge bulk nanocrystalline metal; microvoids; mechanical properties

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Abstract: The large disk-shaped bulk nanocrystalline copper( n -Cu) and silver ( n-Ag)£¬ with diameter of 80 mm£¬ thickness of 5 mm and 7.8 mm£¬ as well as average grain size of 36 nm and 52 nm£¬ respectively£¬ were successfully synthesized by an inert gas condensation and in-situ warm compacting technique. The relative densities of n -Cu and n -Ag are 94.3% and 97%, respectively. Thesize and amount of the vacancies and microvoidsin n-Cu are similar to those of other nanocrystalline materials (nono-Fe,and -TiO₂) prepared by inert gas condensation and inª²situcompaction technique. However£¬ the size of microvoidsin n -Cu is larger than that of nano-Fe£¬ and -TiO₂£¬ but the amount of them is quite less than that of nano-Fe£¬ and -TiO₂. The size of pores in n -Ag is in the range of 16.5¡«18nm, but the amount of them is quite small. The microhardnesses of n-Cu and n -Ag are 6 and 2 times of that of coarseª²grained polycrystalline metals copper ( p-Cu) and silver (p-Ag). The elastic modulus£¬ tensile yield stress£¬ fracture stress£¬ and elongation of n-Cu are 0.65£¬ 1.42£¬ 1.82 and 0.15 times of that of p-Cu£¬ respectively.