Zr_(50)Ti_5Cu_(18)Ni_(17)Al_(10)块体非晶合金的热稳定性被引量：1

Thermal Stability of Zr_(50)Ti_5Cu_(18)Ni_(17)Al_(10) Bulk Amorphous Alloy

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摘要采用铜模吸铸法制备了Zr50Ti5Cu18Ni17Al10块体非晶合金,并采用差示扫描量热仪(DSC)和X射线分析(XRD)对其热稳定性进行了系统研究。结果表明,随着加热温度的提高,玻璃转变温度Tg、晶化开始温度Tx和峰值温度Tp均向高温区移动,说明该合金的玻璃转变和晶化均为动力学过程。用Kissinger方法计算出玻璃转变激活能(Eg)以及晶化激活能(Ep1和Ep2)分别为438±11、284±8和323±11 kJ/mol。该合金的晶化过程分为纳米晶析出、初生相(ZrAl、ZrCu和Zr2Ni)析出以及稳定相(Zr2Cu、Zr2Ni、ZrCu、ZrAl和一个未知相)析出3个阶段。 Bulk amorphous alloy Zr50Ti5Cu18Ni17Al10 was prepared by copper mold suck-casting method, and the thermal stability was investigated by use of differential scanning calorimeter （DSC） and X-ray diffractometer （XRD）. The glass transition temperature （Tg）, the crystallization onset temperature （Tx） and peak temperatures （Tp） shift to the high temperature region with the increase of heating rate, indicating the glass transition and crystallization are kinetic processes. The activation energies of glass transition （Eg） and crystallization （ Ep1 and Ep2 ） are 438 ± 11. 284 ± 8 and 323- 11 kJ/mol, respectively, calsulated by Kissinger method. The crystallization of the amorphous alloy is divided into three processes： the precipitation of the nanocrystals, the primary phase （ZrAI, ZrCu and Zr2Ni） and the stable phase （Zr2Ou, Zr2Ni, ZrOu, 7rAI and an unkown phase）.

作者胡勇闫红红闫志杰党淑娥李永堂

机构地区太原科技大学材料科学与工程学院

出处《铸造技术》 CAS 北大核心 2010年第2期158-161,共4页 Foundry Technology

基金国家自然科学基金(50804032) 山西省自然科学基金(2008011046)

关键词块体非晶合金热稳定性晶化 Kissinger方法 Bulk amorphous alloy Thermal stability Crystallization Kissinger method

分类号 TG139.8 [一般工业技术—材料科学与工程]

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同被引文献6

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10傅明喜,许巨晶,王芳芳,李冬升,熊震东.FeNiAlGaPBSiC非晶合金的晶化动力学[J].稀有金属材料与工程,2009,38(8):1410-1413. 被引量：2

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Zr_(50)Ti_5Cu_(18)Ni_(17)Al_(10)块体非晶合金的热稳定性被引量：1

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Zr_(50)Ti_5Cu_(18)Ni_(17)Al_(10)块体非晶合金的热稳定性 被引量：1

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Zr_(50)Ti_5Cu_(18)Ni_(17)Al_(10)块体非晶合金的热稳定性被引量：1