原子与分子物理学报
原子與分子物理學報
원자여분자물이학보
CHINESE JOURNAL OF ATOMIC AND MOLECULAR PHYSICS
2015年
4期
647-652
,共6页
杨邦鍫%孙永丽%孙亚娟%杨平%厉华明
楊邦鍫%孫永麗%孫亞娟%楊平%厲華明
양방초%손영려%손아연%양평%려화명
Lennard-Jones体系%冷却速率%结构%动力学性质
Lennard-Jones體繫%冷卻速率%結構%動力學性質
Lennard-Jones체계%냉각속솔%결구%동역학성질
Lennard-Jones system%Cooling rate%Structure%Kinetic property
用分子动力学模拟方法研究了五种不同冷却速率对Lennard-Jones体系凝固过程中结构与动力学性质的影响。采用两种不同的方法来确定玻璃转变温度Tg ,并且对结晶温度Tc、径向分布函数g( r)、均方位移函数MSD与扩散系数D、平均配位数进行比较分析。结果表明:冷却速率影响Lennard-Jones体系凝固过程中的结构。当使用足够高的冷却速率冷却时,体系发生玻璃化转变,而且冷却速率越快,玻璃转变温度越高;当冷却速率较小时,体系形成晶体,而且冷却速率越慢,结晶温度越高,结晶程度也越高。同时发现,冷却速率对扩散系数和平均配位数也有很大影响,二者在体系发生玻璃转变时都有一个缓变的过程,表明了过冷液相区的存在。
用分子動力學模擬方法研究瞭五種不同冷卻速率對Lennard-Jones體繫凝固過程中結構與動力學性質的影響。採用兩種不同的方法來確定玻璃轉變溫度Tg ,併且對結晶溫度Tc、徑嚮分佈函數g( r)、均方位移函數MSD與擴散繫數D、平均配位數進行比較分析。結果錶明:冷卻速率影響Lennard-Jones體繫凝固過程中的結構。噹使用足夠高的冷卻速率冷卻時,體繫髮生玻璃化轉變,而且冷卻速率越快,玻璃轉變溫度越高;噹冷卻速率較小時,體繫形成晶體,而且冷卻速率越慢,結晶溫度越高,結晶程度也越高。同時髮現,冷卻速率對擴散繫數和平均配位數也有很大影響,二者在體繫髮生玻璃轉變時都有一箇緩變的過程,錶明瞭過冷液相區的存在。
용분자동역학모의방법연구료오충불동냉각속솔대Lennard-Jones체계응고과정중결구여동역학성질적영향。채용량충불동적방법래학정파리전변온도Tg ,병차대결정온도Tc、경향분포함수g( r)、균방위이함수MSD여확산계수D、평균배위수진행비교분석。결과표명:냉각속솔영향Lennard-Jones체계응고과정중적결구。당사용족구고적냉각속솔냉각시,체계발생파리화전변,이차냉각속솔월쾌,파리전변온도월고;당냉각속솔교소시,체계형성정체,이차냉각속솔월만,결정온도월고,결정정도야월고。동시발현,냉각속솔대확산계수화평균배위수야유흔대영향,이자재체계발생파리전변시도유일개완변적과정,표명료과랭액상구적존재。
A molecular dynamics simulation study was performed for the effects of five different rates on struc-tures and kinetic properties during solidification process of the Lennard-Jones system.Glass transition tempera-ture Tg was measured by using two different methods, and the crystallization temperature Tc, the radial distribu-tion function, the mean square displacement MSD, the diffusion coefficient D and the mean coordination number were used to compare and analyze.The results show that the cooling rate plays a critical role on structures during solidification process of the Lennard-Jones system.As the cooling rate being high enough, the system will be transferred into glass, and the greater the cooling rate, the higher the glass transition temperature.As the cooling rate being smaller, the system will be crystallized, and the slower the cooling rate, the higher the crystallization temperature, and the higher the degree of crystallization.At the same time, it is found that the diffusion coeffi-cient and the mean coordination number are largely influenced by cooling rates, and both have a slow graded process of the glass transition occurred in the system, which shows the existence of supercooled liquid region.