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¹Ø¼ü´Ê£ºMonte Carlo·½·¨;Ô­×Ó´Ø;´Ô¾Û; Al-Cu-(Mg)-(Ag);µ¯ÐÔÓ¦±ä

Key words£ºMonte Carlo method; atomic cluster; clustering; Al-Cu-(Mg)-(Ag); elastic strain

Õª    Òª£º²ÉÓÃMonte Carlo·½·¨Ä£ÄâÁËʱЧ³õÆÚAl-1.8Cu,Al-1.8Cu-0.2Ag,Al-1.8Cu-0.5MgºÍAl-1.8Cu-0.5Mg-0.2Ag 4ÖֺϽðµÄÔ­×Ó·Ö²¼Í¼.½á¹û±íÃ÷:ÔÚÎÞMg,AgµÄAl-CuºÏ½ðʱЧʱ,CuÔ­×ÓÓÐÇ¿ÁÒ´Ô¾ÛµÄÇãÏò,¶ø΢Á¿Mg,AgµÄ¼ÓÈëÃ÷ÏÔÒÖÖÆÁËCuÔ­×ӵĴԾÛ,ÆäÖÐ,ÓÈÒÔMgµÄ×÷ÓÃ×îΪÏÔÖø,²¢ÇÒMg,AgÖ®¼ä»¹´æÔÚÇ¿ÁÒµÄÏ໥×÷ÓÃ.×÷ÕßÈÏΪ,΢Á¿Mg,Ag¶ÔAl-CuºÏ½ðʱЧ¹ý³ÌµÄÓ°ÏìÊÇͨ¹ýÒÖÖÆCuÔ­×Ó´Ô¾Û¶øʵÏÖµÄ.

Abstract: The Monte Carlo method is applied to simulating the distribution of solutes in the alloys:Al-1.8Cu, Al-1.8Cu-0.5Mg, Al-1.8Cu-0.2Ag, Al-1.8Cu-0.2Mg-0.2Ag. The simulation result shows that the Cu atoms in Al-1.8Cu alloys are apt to clustering; with the effect of trace Mg and Ag, the Cu clustering is restrained; the trace of Mg plays the major role of restraining the Cu atom clustering, and the strongly interaction between Mg and Ag is found. And then,we analyze the effect of elastic strain on the simulation result. We think that by restraining the Cu atoms clustering, which relax the elastic strain, the trace of Mg and Ag changes the Al-Cu aging process.