Fe对Zr55Al10Ni5Cu30非晶形成能力及力学性能的影响

为了进一步提高锆基大块非晶合金的玻璃形成能力及力学性能,采用铜模吹铸法制备了（Zr0.55Al10Ni0.05Cu0.30）100-xFex（X=1,5,10）系列合金,通过X射线衍射（XRD）、差示扫描量热法（DSC）以及压缩实验和SEM进行材料分析。研究表明：微量Fe有助于改善非晶合金在压缩变形时剪切带内的应力分布,提高材料的综合性能,当Fe添加量为1％时,塑性应变εp达到5．9％,强度达到1．89GPa,同时,随着Fe添加量的增加,过冷温度区间ΔTx减小,热稳定性减小,非晶形成能力降低。     

块体非晶合金的研究进展

块体非晶合金具有比各种传统材料更为优异的物理、化学、力学性能及精密成型性,因而一直是材料科学与物理研究的热点。本文分析讨论了该领域中存在的一些基本的问题,并从成分结构条件、热力学条件、动力学条件等方面阐述了块体非晶合金的形成机制,介绍了块体非晶合金优异的性能和应用前景,并扼要介绍了块体非晶合金未来的发展趋势及方向。     

Ti-Cu-Ni-Zr块体非晶合金形成能力及其压缩性能

采用铜模铸造法制备了不同直径的Ti40Cu34+xNi16-xZr10(x=0,2,4,5,6)系列合金,并利用X射线衍射(XRD)、扫描电镜(SEM)、差氏扫描量热仪(DSC)研究了合金的相结构、显微组织、热稳定性.结果表明:只有Ti40Cu39Ni11Zr10合金成分可制备出2 mm的全非晶结构,增加制备尺寸到3 mm、4 mm后,有TiCu晶体相析出;玻璃转变温度Tg、晶化温度Tx分别为665 K和712 K,过冷液相区ΔTx为47K.压缩实验表明:Ti40Cu39Ni11Zr10块体非晶合金具有高达1 931 MPa的屈服强度,并伴有0.3%左右微量压缩变形量,塑性变形以锯齿形式出现;Ti40Cu34Ni16Zr10合金具有1.3%的压缩变形量,TiCu相的析出提高了该合金压缩变形量.     

合金非晶形成能力影响因素探讨

分析了Zr-Al-Co合金系中玻璃转变温度(Tg)、晶化温度(Tx)和约化玻璃转变温度(Tg/Tm)与电子浓度值(e/a)、原子尺寸判据(λn)、混合焓(ΔHchem)和混合熵(ΔS)的关系.结果表明:可以用多元回归的方法研究Tg、Tx和Tg/Tm与e/a、λn、ΔHchem和ΔS的关系,回归结果都是显著的;通过F-检验,剔除e/a和λn,仅用ΔHchem和ΔS足以解释响应变量Tg、Tx和Tg/Tm,简化模型的方法是可行的;只用ΔS或ΔHchem解释响应变量Tg、Tx和Tg/Tm是不可靠的,在某些文章中只用ΔH来判断非晶形成能力的方法是不可靠的.     

元素Ce对Y基合金非晶形成能力和热稳定性的影响

采用铜模吸铸法成功制备出直径为3 mm的Y56Al24Ni20和直径为5 mm的Y36Ce20Al24Ni20大块非晶合金,用X射线衍射法和差示扫描量热法对其非晶形成能力及热稳定性进行了分析。结果表明:Y36Ce20Al24Ni20大块非晶合金存在明显的玻璃转变温度Tg,其过冷液相区温度宽度ΔTx=63 K,约化玻璃转变温度Trg=0.70 K。这说明稀土元素Ce可以改善Y56Al24Ni20合金的非晶形成能力及热稳定性。     

钇对ZrCuNiAl系合金非晶形成能力的影响

利用X射线衍射（XRD）和差示扫描量热分析（DSC）研究了添加钇对Zr55 Cu30Ni5Al10Y（=0,1,2,3,4）非晶合金体系玻璃形成能力的影响。用铜模铸造获得的Zr55-xCu30Ni5Al10Y（=0,1,2,3,4）块体非晶合金的临界尺寸从直径6 mm增加到20 mm。分析认为,微量钇的添加可以与合金中的残留氧形成氧化物,降低氧对合金形成非晶态结构的负面效应。因此添加适量的稀土元素钇有利于提高Zr55 Cu30Ni5Al10Y非晶合金体系的玻璃形成能力。     

块体非晶合金制备方法的研究进展

对大块非品合金的制备方法进行了总结和归纳,阐述了不同制备方法的基本原理,并对各种制备方法的优缺点进行了讨论.最后根据对不同制备方法的分析及探讨,对大块非晶合金制备方法的研究方向进行了展望.     

退火处理对Ti-Zr-Cu-Be块体非晶合金力学性能的影响

采用铜模铸造法制备了直径为2mm的Ti55-xZr10+xBe27.5Cu7.5(x=0,10,20)块体非晶合金,并对其进行等温退火处理.利用X射线衍射(XRD)、扫描电镜(SEM)、差氏扫描量热仪(DSC)及压缩试验等方法研究了非晶合金的相结构、显微组织和热稳定性,以及退火处理对其力学性能的影响.结果表明:该系列合金在553 K及583 K下保温长达5 h时间内依然表现为非晶态.退火处理后,Ti35Zr30Be27.5Cu7.5合金屈服强度、断裂强度均提到了提高,其中在583 K下保温1 h后屈服强度、断裂强度分别达到了1 921、2 169 MPa;其塑性由处理前的3.47%提高到了6.57%.Ti45Zr20Be27.5Cu7.5合金在退火后其力学性能变化不明显.Ti55Zr10Be27.5Cu7.5合金随着退火温度及保温时间的增加其屈服强度、断裂强度及塑性均明显降低.     

Fe-B-Nb-Er块状非晶合金的形成能力及热稳定性研究

采用工业原料通过铜模喷铸法制备了(Fe7.2B24Nb4)100-x Er x(x=3.0、4.0、4.5、5.0、6.0、7.0)块状非晶合金系,采用X射线衍射仪、DSC差示热量扫描仪研究了稀土元素Er对该非晶合金系热稳定性、玻璃形成能力的影响.结果表明:稀土元素Er的添加明显提高了样品的非晶形成能力,Er含量(摩尔分数)为5.0%时成功制备出直径为5 mm的(Fe72B24Nb4)95Er5块状非晶,该非晶合金具有较高的热稳定性,抗晶化能力较强,其晶化激活能分别达到382.8、539.5、680.8 kJ/mol.     

添加微量稀土钇对铜基合金非晶形成能力的影响

针对铜基非晶合金玻璃形成能力问题,分析了添加微量稀土元素Y对合金的玻璃形成能力、热稳定性的影响,利用铜模吸铸法制备出Cu-Zr-Al-Y9mm非晶合金.研究结果表明：制备的9mm铜基非晶合金试样（Cu45Zr47Al8）97Y3,在过冷液相区ΔT和约化玻璃转变温度Trg分别是79.42K和0.775 3.随着稀土元素Y含量的增加Trg值变小,合金的非晶形成能力降低,通过Trg值变化可以判别该合金的非晶形成能力.     

Glass forming ability of Zr-and Fe-based alloys at quenching from melts

0　ＩＮＴＲＯＤＵＣＴＩＯＮＳｉｎｃｅｔｈｅｆｉｒｓｔｓｙｎｔｈｅｓｉｓｏｆａｎａｍｏｒｐｈｏｕｓｐｈａｓｅｉｎｔｈｅＡｕ Ｓｉｓｙｓｔｅｍｂｙａｒａｐｉｄｓｏｌｉｄｉｆｉｃａｔｉｏｎｔｅｃｈｎｉｑｕｅｉｎ196 0 [1,2 ] ,ａｇｒｅａｔｎｕｍｂｅｒｏｆａｍｏｒｐｈｏｕｓａｌｌｏｙｓｈａｖｅｂｅｅｎｐｒｏｄｕｃｅｄｆｏｒｔｈｅｌａｓｔｔｈｒｅｅｄｅｃａｄｅｓ.ＩｔｉｓｗｅｌｌｋｎｏｗｎｔｈａｔＦｅ ,Ｃｏ ａｎｄＮｉ ｂａｓｅｄａｍｏｒｐｈｏｕｓａｌｌｏｙｓｆｏｕｎｄｂｅｆｏｒｅｒｅ ｑｕｉｒｅｄｈｉｇｈｃｏ…     

Al-Y-Fe合金玻璃形成能力及其热稳定性

为了分析Al-Y-Fe三元合金的玻璃形成能力和热稳定性,采用熔体急冷法制备了Al(100-2x)YxFex(其中x=3,4,5,6,7,8,9)、Al89Y5Fe6、Al88Y5Fe7和Al87Y5Fe8合金条带.利用x-射线衍射(XRD)及透射电子显微镜(TEM)表征了急冷态和部分晶化后条带的结构,运用示差扫描量热仪(DSC)分析了合金的玻璃转变和晶化行为.结果表明,Al88Y6Fe6、Al84Y7Fe7、Al89Y5Fe6和Al88Y5Fe7可以形成完全非晶合金;Al88Y5Fe7非晶合金280℃等温退火30 min析出纳米尺寸Al晶体,370℃等温退火30 min Al晶体发生进一步长大并有金属间化合物析出.     

Chemical short-range order domain in bulk amorphous alloy and the prediction of glass forming ability

Since the discovery of bulk Zr-Ti-Cu-Ni-Be[1] and Pd-Ni-Cu-P[2] metallic glasses with ex-traordinary high glass forming (GFA) ability and critical cooling rate lower than 100 K/s, great attention has been paid to the structure of BMG alloys. Experimental results of X-ray and neutron diffraction or scattering have provided ample evidence that there is a short-range order in BMG alloys. Metallic glasses always exhibit strong compound forming tendency and the corresponding anomalies of t…     

Influence of flux treatment on the glass forming ability of Pd-Si binary alloys

Pd81Si19 amorphous alloys were prepared by combination methods of melt spinning and B2O3 flux treatment. A compari- son between the ribbons prepared from the fluxed ingots and the non-fluxed ones has been carried out. The result reveals that after fluxing treatment the glass transition temperature of the as-prepared glassy ribbons is reduced while the initial crystallization tem- perature is enhanced. It results in that the supercooled liquid region (defined as the difference between the initial crystallization tem- perature and the glass transition temperature) of the glassy alloy treated with fluxing technology has been increased from 31 to 42 K. This shows that fluxing technique can enhance the glass forming ability (GFA) of the binary alloy and improve the thermal stability of supercooled liquid of the glassy alloy.     

Al-Ni-Y三元合金玻璃形成能力及热稳定性

为了分析Al-Ni-Y三元合金的玻璃形成能力和热稳定性,采用熔体急冷法制备了Al₉₀Ni₂Y₈、Al₈₇Ni₅Y₈、Al₈₄Ni₈Y₈和Al₈₀Ni₁₂Y₈合金条带.利用x-射线衍射（XRD）表征了急冷态和部分晶化后条带的结构,运用示差扫描量热仪（DSC）分析了合金的玻璃转变和晶化行为.结果表明：除了Al₈₀Ni₁₂Y₈和Al₉₀Ni₂Y₈合金外,制备态的条带均为完全非晶态,部分晶化后有纳米铝晶体析出;Al₈₄Ni₈Y₈合金DSC曲线上可以明显地观察到玻璃转变温度Tg.〖JP2〗通过比较4种合金的热稳定性,发现随着Ni的原子分数升高,合金的初始晶化温度Tx也随着升高,合金的热稳定性增强.     

Thermal stability and glass-forming ability of Y-Ce-Co-Al bulk metallic glasses

The thermal stability and glass-forming ability of Y56-xCexCo20Al24 (x=15, 20, 25, 28, 38, 41, 44) bulk metallic glasses with a diameter of 5 mm were investigated by differential scanning calorimetry and X-ray diffraction. The results show that the thermal stability of the alloys decreases with the addition of Ce. It has the best glass-forming ability when x=25, whose calculated values can reach about 30 mm in diameter. The effect of Ce element could be explained on the view of Miedema’s theory and elec- tronegativity difference of amorphous alloys.     

Glass forming ability, microstructure and magnetic property of NdAlNiCuFe alloys

The glass forming ability (GFA), microstructure and magnetic property in (Nd60Al10Ni10)Cu20-xFex (0≤ x≤ 20) alloys were investigated by using X-ray diffraction (XRD), differential scanning calorimetry (DSC), high resolution transmission electron mi- croscopy (HRTEM) and magnetic property measurement. It is shown that the GFA of the alloys decreases with Fe content. The sam- ples for bulk cylinders with x≤10 show a distinct endothermic peak in the DSC traces due to a glass transition in the range of 421-438 K. With further increasing Fe, the glass transition is masked by the crystallization. The microstructure of the Nd-based alloy can change progressively from full glassy state into composite state with nanocrystalline particles in the glassy matrix indicating the glass forming ability degrades with increasing Fe. The average size of nanocrystals increases with Fe and the distribution changes from homogenous to heterogeneous. The magnetic property varies from paramagnetic to hard magnetic when the Fe content increases up to about 4at% indicating that the magnetic property is related to the metastable phases.