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Zr-Al-Ni-Cu(Nb,Ti)大块非晶玻璃转变的动力学性质
引用本文:陈志浩,刘兰俊,张 博,席 赟,王 强,祖方遒. Zr-Al-Ni-Cu(Nb,Ti)大块非晶玻璃转变的动力学性质[J]. 物理学报, 2004, 53(11): 3839-3844
作者姓名:陈志浩  刘兰俊  张 博  席 赟  王 强  祖方遒
作者单位:合肥工业大学材料科学与工程学院,合肥 230009
基金项目:安徽省自然科学基金(批准号:03046202)资助的课题.
摘    要:以Zr-Al-Ni-Cu (Nb,Ti)大块非晶合金差示扫描量热分析实验为基础,利用Lasocka方程、Kissinger方程及Vogel-Fulcher-Tamman(VFT)方程对其玻璃转变的动力学性质从不同方面进行了研究.分析结果表明:玻璃转变表观激活能越小,则晶化转变激活能越大,表现出相反的难易程度,且玻璃转变表观激活能数值远较传统非晶要小,验证了大块非晶合金独特的结构特点及玻璃形成能力(GFA)强的原因.利用VFT方程对玻璃转变弛豫时间与升温速度的VFT曲线 进行了拟合,所算得的玻璃脆性参数m均在30左右,反映了Zr-Al-Ni-Cu (Nb,Ti)非晶合金强 的脆性属性.玻璃转变处Lasocka关系的B值、原子表观激活能及玻璃脆性参数均反映了相同的GFA大小趋势,从不同方面进一步揭示了非晶合金玻璃转变区间的动力学行为与GFA之 间的密切联系,可作为判断非晶合金GFA强弱的重要依据.关键词:玻璃转变玻璃形成能力表观激活能玻璃脆性参数

关 键 词:玻璃转变  玻璃形成能力  表观激活能  玻璃脆性参数
收稿时间:2004-01-09

Glass transition kinetic property of novel bulk Zr-Al-Ni-Cu (Nb, Ti) amorphous alloy
Chen Zhi-Hao,Liu Lan-Jun,Zhang Bo,Xi Yun,Wang Qiang,Zu Fang-Qiu. Glass transition kinetic property of novel bulk Zr-Al-Ni-Cu (Nb, Ti) amorphous alloy[J]. Acta Physica Sinica, 2004, 53(11): 3839-3844
Authors:Chen Zhi-Hao  Liu Lan-Jun  Zhang Bo  Xi Yun  Wang Qiang  Zu Fang-Qiu
Abstract:The kinetic property during the glass transition process of Zr_Al_Ni_Cu (Nb,Ti) amorphous alloys was systematically investigated by differential scanning calorimetry method. The activation energy (ΔE) at the glass transition temperature was much smaller than tradition amorphous alloys and have different magnitude compared to ΔEvalue at Tx. These reveal that the bulk amorphous alloys show special structure characteristics and that is the reason of its big glass_forming ability. The Vogel_Fulcher_Tammann fits to the experimenta l data are given by the full curves and the fragility parameter mvalue was calculated to be about 30, reflecting its “strong" liquid property in deep_unde rcooled region. The B value of Lasocka function,atom activation energy and glass fragility parameter reveal a close relationship between kinetic behavior at glass transition and the glass_forming ability. So it could be used as an impor tant judgment for glass_forming ability.
Keywords:glass transition  glass-forming ability  activation energy  fragility parameter
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