Many experimental results have demonstrated that the nanocrystalline Fe-Mo-Si-B alloys prepared by crystallization of amorphous (Fe<sub>o.99</sub>,Mo<sub>o.o1</sub><sub>78</sub>Si&l...Many experimental results have demonstrated that the nanocrystalline Fe-Mo-Si-B alloys prepared by crystallization of amorphous (Fe<sub>o.99</sub>,Mo<sub>o.o1</sub><sub>78</sub>Si<sub>9</sub>B<sub>13</sub> (FMSB) alloy have many novel physical properties, except some brittleness. In order to solve this problem, the nanocrystalline alloy and a metal aluminum were bound together by isothermally annealing alternate layers consisting, of Al and amorphous FMSB alloy ribbons under high pressure in the present work to make an Al/Fe-Mo-Si-B alloy nanostructured composite. Different展开更多
基金the National Natural Science Foundation of China.
文摘Many experimental results have demonstrated that the nanocrystalline Fe-Mo-Si-B alloys prepared by crystallization of amorphous (Fe<sub>o.99</sub>,Mo<sub>o.o1</sub><sub>78</sub>Si<sub>9</sub>B<sub>13</sub> (FMSB) alloy have many novel physical properties, except some brittleness. In order to solve this problem, the nanocrystalline alloy and a metal aluminum were bound together by isothermally annealing alternate layers consisting, of Al and amorphous FMSB alloy ribbons under high pressure in the present work to make an Al/Fe-Mo-Si-B alloy nanostructured composite. Different