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ã€Abstractã€‘ It has been the target and long-cherished wish of researchers to investigate bulk amorphous alloys with high thermal stability and high glass-forming ability and to make the bulk amorphous materials with bigger. Because bulk amorphous alloys have multicomponent and composition sensitivity, so far there is no any single quantificational criterion in general to make certain the composition range of bulk amorphous alloys. So we can quest for the amorphous alloys composition only according to experiential rules. Thus it has no breakthrough headway on the size of the bulk amorphous alloys and the new amorphous systems. Therefore looking for the amorphous alloys composition with bigger glass-forming ability is the key to make the bulk amorphous alloys. The electron density, atom size, mixture enthalpy and mixture entropy were detailedly analysed and discussed. The results indicate that AH and AS are two most important factors. Only the critical cooling rate R_c in many parameters characterizing the glass-forming ability was relevant to the two factors. This paper calculated the critical cooling rate R_c of Cu-based amorphous alloys and modified the expression. It was named as R_c^* which were calculated using the modified expression. The critical cooling rate R_c^* of Cu-based and Pd-based bulk amorphous alloys were calculated. The composition range of the Cu-Ti-Si and Pd-Cu-Si alloys which could form bulk metallic glass were predicted.The main work of this thesis was focused on the following aspects: ï¼ˆ1ï¼‰ The electron density, atom size , mixture enthalpy and mixture entropy of the Zr-Al-Co amorphous alloys were discussed by line fitting. The results indicate that these factors are good linearity with the thermodynamics parameters, such as T_l, T_x, T_g,Î”H+RT_m and T_g/T_m. ï¼ˆ2ï¼‰ These factors which could fact the glass-forming ability, such as the electron density, atom size , mixture enthalpy and mixture entropy were all taken into accout and made regression analysis. The line models could be build up. By regression analysis contrast these models could be simplified. AH and AS were separated which were two most important factors. ï¼ˆ3ï¼‰ By proper disposalÎ”G in the Cu-based hexahydric alloys could be studied. UsingÎ”G the R_c of the Cu-based hexahydric alloys could be calculated and modified the expression in which the constant Z was substitute for Z^*. Then this model computed multicomponent alloys could to be named as R_c^*. ï¼ˆ4ï¼‰ The critical cooling rate R_c^* of Cu-based bulk amorphous alloys were calculated using the modified expression. The R_c^* with respect to T_rg was shown in Fig. 3.4. The R_c^* with respect toÎ³was shown in Fig. 3.5. The R_c^* with respect to Dï¼ˆmaxï¼‰ was shown in Fig. 3.6. The results show it is feasible to calculate R_c^* using the modified expression. ï¼ˆ5ï¼‰ The critical cooling rate R_c^* of Cu-Ti-Si amorphous alloys were calculated using the modified expression. The composition was supposed as Cu_1-x-yTi_xSi_yï¼ˆat%ï¼‰. ï¼ˆ6ï¼‰ The critical cooling rate is 10³ K/s which could form bulk amorphous alloys. The compositions of Cu-Ti-Si amorphous alloys which could form bulk amorphous alloys were predicted using the modified expression. ï¼ˆ7ï¼‰ The critical cooling rate R_c^* of Pd-based bulk amorphous alloys were calculated using the modified expression . The R_c^* with respect to T_rg was shown in Fig. 3.11. The result shows R_c^* is feasible. ï¼ˆ8ï¼‰ The critical cooling rate R_c^* of Pd-Cu-Si amorphous alloys were calculated. The composition was supposed as Pd_1-xCu_xSi_y ï¼ˆat%ï¼‰. ï¼ˆ9ï¼‰ The compositions of Pd-Cu-Si amorphous alloys which could form bulk amorphous alloys were predicted using the modified expression .æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ bulk metallic glassï¼› amorphous-forming abilityï¼› critical cooling rateï¼› amorphous-forming composition rangeï¼›

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