AlSc15中间合金中Al_(3)Sc金属间化合物的电化学行为及对局部腐蚀的影响

将过共晶AlSc15合金加热至液态,以10℃/h速率冷却得到毫米级尺寸的Al_(3)Sc金属间化合物。利用微区电化学和扫描开尔文探针力显微镜(SKPFM)研究了Al_(3)Sc金属间化合物在不同pH值的0.1 mol/L NaCl溶液中的电化学特征及对局部腐蚀敏感性的影响。结果表明,Al_(3)Sc金属间化合物存在自钝化现象,且在碱性环境中有明显的维钝区域;随着pH值的增加,Al_(3)Sc腐蚀电位逐渐降低,在中性和碱性条件下的腐蚀速率明显低于酸性条件下的;Al_(3)Sc金属间化合物与周围铝基体之间的伏打电位差约为40 mV,在铝合金中可能作为较弱的局部阴极,对电偶腐蚀的影响不大。

微合金化元素Cu/Ti在L1_(2)-Al_(3)Sc/Al界面的偏析行为

L1_(2)-Al_(3)Sc纳米析出相的热稳定性对于Al-Sc合金的耐热性意义重大.不同溶质原子在L1_(2)-Al_(3)Sc界面的偏析行为可能对Al-Sc合金中L1_(2)-Al_(3)Sc析出相的热稳定性造成影响.本文针对过渡族微合金化元素Cu和Ti的L1_(2)-Al_(3)Sc/Al界面偏析,开展第一性原理能量学计算研究.结果表明,Cu和Ti均倾向于以替换方式偏析在界面Al侧,但偏析驱动力和偏析占位有明显差异.在给定温度下,基体浓度对界面偏析量也有重要影响.基体浓度越高,偏析驱动力越大,界面平衡偏析量或最大界面覆盖率越大.温度为600 K、基体原子浓度为1%时,Ti对偏析界面的最大覆盖率可达80%(0.8单原子层),而Cu不超过4%(0.04单原子层).

固体酸SO_(4)^(2-)-/ZrO_(2)-γ-Al_(2)O_(3)的制备及其催化合成癸二酸二辛酯的研究

本研究采用沉淀-浸渍法制备了SO_(4)^(2-)/ZrO_(2)-γ-Al_(2)O_(3)固体酸催化剂,以癸二酸和异辛醇的酯化反应为探针反应,确定了SO_(4)^(2-)/ZrO_(2)-γ-Al_(2)O_(3)固体酸催化剂的最佳制备条件。实验分别考察了焙烧温度、焙烧时间、硫酸浸渍浓度、硫酸浸渍时间、陈化温度对催化活性的影响,并进一步考察了催化剂的循环使用性能。结果表明:焙烧温度为600℃、焙烧时间为5 h、硫酸浸渍浓度为0.6 mol/L、硫酸浸渍时间为9 h、陈化温度为-20℃时,制备出的SO_(4)^(2-)/ZrO_(2)-γ-Al_(2)O_(3)固体酸催化剂具有较好的催化活性,癸二酸的酯化率可以达到99.66%,催化剂循环使用5次后,酯化率降至90.54%。

Al-2Sc合金中初生Al_(3)Sc粒子的三维形貌研究

高强高韧含Sc铝合金是新一代重要结构材料,其优异的性能与Al_(3)Sc粒子密切相关。初生Al_(3)Sc粒子具有多种形貌,但对其形貌变化机理尚不清楚。以Al-2Sc为试验合金,进行高温重熔,采用直接水冷、铁模冷却和空冷三种方式获得不同冷却速率凝固的Al-2Sc合金样品。利用扫描电镜观察深腐蚀后的样品中的初生Al_(3)Sc粒子三维形貌。结果显示,随着冷却速度的降低,初生Al_(3)Sc粒子由八角花瓣形向凹面立方体形、带孔立方体形转变,最终形成完整立方体。结合Al_(3)Sc晶体生长的各向异性对初生Al_(3)Sc粒子形貌演变过程进行了分析,并绘制了形貌演变示意图。

双阶段均匀化对铸轧Al-Zn-Mg-Cu合金Al_(3)Zr析出的影响

研究了均匀化制度对双辊铸轧Al-Zn-Mg-Cu合金Al_(3)Zr相析出行为及再结晶的影响,以及Al_(3)Zr析出和再结晶程度对合金力学性能和耐晶间腐蚀性能的影响.结果表明,相比于传统的单阶段均匀化,双阶段均匀化的第一阶段为Al_(3)Zr的析出提供了更大的形核驱动力和更多的非均匀形核质点,促进了Al_(3)Zr的析出.此外,不同的升温速率对Al_(3)Zr的析出也有影响,缓慢的升温速率有利于细化Al_(3)Zr尺寸,增加Al_(3)Zr的数量密度和体积分数.固溶处理时,Al_(3)Zr相f/r值的变化导致了不同的再结晶抗力,因此在T6处理后双阶段均匀化的试样再结晶组织比例降低,大角度晶界数量减少.Al_(3)Zr相f/r值以及显微组织的变化对合金力学性能的影响较小,显著提高了合金的抗晶间腐蚀性能.

酸腐蚀法制备超细、单分散γ-Al_(2)O_(3)纳米颗粒的研究

采用非均匀沉淀法+酸腐蚀法制备形貌规则、窄尺寸分布、超细、单分散的γ-Al_(2)O_(3)纳米颗粒。首先,以硝酸铝、氨水为原腐蚀30 h后,制备出类球形、粒径分布为4~15 nm、平均颗粒尺寸9 nm、单分散的γ-Al_(2)O_(3)纳米颗粒,解释了可能的反应机理。这种新颖的方法在工业化生产高质量γ-Al_(2)O_(3)纳米颗粒和制作热稳定性更高的催化剂载体等方面具有重要的指导意义。

制备方法对Al_(2)O_(3)-CeO_(2)物化性质及CO_(2)加氢制甲醇催化性能的影响

复合氧化物界面性质与CO_(2)加氢制甲醇反应的催化性能有着重要的关系。本文对比考察了物理共混法、浸渍法、传统共沉淀法和微流控连续共沉淀法对Al_(2)O_(3)-CeO_(2)复合氧化物界面性质和催化性能的影响。浸渍作用尽管使Al_(2)O_(3)/CeO_(2)界面产生了一定的结构性质调变,但贫瘠的氧空位缺陷导致催化反应效率低。共沉淀样品中固溶结构的存在增强了Al_(2)O_(3)/CeO_(2)界面的相互作用,增大了电子结合能,形成的大量氧空位缺陷有利于CO_(2)活化转化。而微流控连续共沉淀法合成样品因具有更小的晶粒尺寸、均匀的复合相结构和丰富的氧空位缺陷,表现出更为优异的催化性能。在原料气配比为V(H_(2))∶V(CO_(2))∶V(N_(2))=72∶24∶4,反应温度为320℃,反应压力为3 MPa,体积空速为9000 mL·g^(-1)·h^(-1)的条件下,Al2O3-CeO_(2)复合氧化物的CO_(2)转化率、甲醇选择性及甲醇时空产率分别达到15.3%,86.4%和0.076 g·mL^(-1)·h^(-1)。

Transition from Metastablity to Instability in Dynamics for the Precipitation of δ'(Al_3Li)

A computer simulation study on dynamics for the precipitation of δ'(Al_3Li) ordered particles from a disor- dered matrix (α) in binary Al-Li alloys is performed using the microscopic Langevin equation. A unique precipitation mechanism is found near the ordering spinodal line. Different from the classical nucleation mechanism in the me- tastable region and the congruent ordering followed by spinodal decomposition in the instable region, a nonstoichi- ometric single ordered phase with composition fluctuations is formed by non-classical nucleation, and this ordered phase decomposes spinodally. It can be concluded that the precipitation dynamics of δ' phase from metastability to instability is gradual, and no sharp transition occurs near the mean-field spinodal line as the mean-field theory pre- dicts.

Cr^(3+)掺杂α-Al_(2)O_(3)粉末的结构及其发光性能

采用化学沉淀法合成了α-Al_(2)O_(3):Cr^(3+)发光粉体,并对其结构和发光性能进行了研究.α-Al_(2)O_(3):Cr^(3+)粉末分散性较好,吸收光谱在可见光区由一系列驼峰状宽带吸收峰组成.在411 nm激发下,粉末主发射峰位于695 nm处,属于Cr^(3+) R线发射.Cr^(3+)最佳掺杂浓度为0.5 mol%,经过计算此时晶格内Cr^(3+)之间距离大约为20A,α-Al_(2)O_(3)为强晶体场环境.Cr^(3+)掺杂浓度继续增大后,晶格内Cr^(3+)浓度增大、离子间距离减小、无辐射跃迁增多,出现浓度淬灭现象,导致发光强度降低.

载体焙烧温度对RuO_(2)/Al_(2)O_(3)-TiO_(2)催化HCl氧化性能的影响

采用共沉淀-机械混合法制备AlTi复合物,经不同温度焙烧,得到Al_(2)O_(3)-TiO_(2)复合载体,采用浸渍法制备RuO_(2)/Al_(2)O_(3)-TiO_(2)催化剂,利用XRD、N_(2)吸附-脱附、CO-TPD和H_(2)-TPR等手段分析催化剂物化性质,并对其催化氧化HCl反应性能进行考察。结果表明,焙烧温度对载体结构及金属Ru分布影响显著,进而影响催化剂活性。焙烧温度的增加,催化剂中金红石相TiO_(2)和α-Al_(2)O_(3)结晶度增加,焙烧温度1100℃制备的RuO_(2)/TiAl-1100催化剂具有大孔径,RuO_(2)和TiO_(2)高晶格匹配度,高金属分散度的特点,催化剂具有较优的HCl转化活性和耐高温活性。

甲醇水蒸气重整制氢CuO-ZnO-Al_(2)O_(3)催化剂的制备与性能

采用共沉淀法制备一系列不同质量比的CuO-ZnO-Al_(2)O_(3)催化剂,用泡沫镍作为载体,研究其对甲醇重整制氢性能的影响。采用SEM和XRD等对催化剂进行检测表征,利用自制的平板式制氢反应器对催化剂性能进行检测。结果表明,催化剂在(230~270)℃表现出良好的催化性能。在一定的质量比范围内,随着CuO含量的增高,甲醇重整制氢性能得到改善。在水醇物质的量比1.5∶1、反应温度250℃、反应物流量3 mL·min^(-1)和m(CuO)∶m(ZnO)∶m(Al_(2)O_(3))=9∶9∶2条件下,CuO-ZnO-Al_(2)O_(3)催化剂性能最好,甲醇转化率为82.4%。

DEVELOPING MULTIPHASE AL_3Ti ALLOYS

To explore the approaches of combined toughening and strengthening of the Al_3Ti-based L1_2 intermetallic alloys, multiphase Al_3Ti alloys formed by combining with reinforcement or by second phase precipitation are being studied. The interface reactions between Al_(66)Fe_9Ti_(25)matrix and SiC reinforcement were investigated. It is determined that SiC is chemically incompatible with the Al_(66)Fe_9Ti_(25)matrix, Al_2O_3 barrier coating on SiC by sol-gel process was developed to minimize the interfacial reactions. On the other hand, a new type of Al_3Ti-based alloy having a L1_2 matrix with second phase precipitation has been developed. The quaternary alloys based on Al_(66)Fe_9Ti_(25)and modified with Nb additions, consist of a L1_2 matrix and D0_(22) second phase in the annealed state ,but the second phase can be dissolved by solution treatment and precipitated during high temperature aging.

Eu^(3+)掺杂γ-Al_(2)O_(3)粉末的结构及其发光性能

通过化学沉淀法得到γ-Al_(2)O_(3):Eu^(3+)发光粉末,并分析其结构和发光特性。经研究得出:(1)掺杂Eu^(3+)会抑制氧化铝的结晶过程,γ-Al_(2)O_(3)的禁带宽度随着掺杂浓度的增加而降低,最佳的Eu^(3+)掺杂浓度为4%(摩尔分数),浓度继续增加时,会发生淬灭现象,使得发光强度降低;(2)在396nm监测波长下,最强发射峰约为618 nm,对不同发射峰的比值得,在γ-Al_(2)O_(3)晶格中,Eu^(3+)掺杂进入后大多数占据的位置是是非中心对称;(3)对于纯氧化铝粉末中的Cr^(3+)杂质,在未掺杂时出现发射峰,但由于量少,与Eu^(3+)的发射峰发生重合,只在695nm有一发光强度极低的发射峰。

Sc含量对Al9.0Zn2.5Mg2.2Cu0.2Zr合金铸态组织的影响

本文研究了Sc添加量对Al9.0Zn2.5Mg2.2Cu0.2Zr合金铸态组织的影响。结果表明,微量Sc与Zr协同可形成Al_(3)(Sc,Zr)第二相,在铸造过程中具有促进非均质形核、细化铸态晶粒的作用,并对合金共晶组织有明显的变质作用。但铸态合金中部分可达微米级初生Al_(3)(Sc,Zr)第二相对合金的加工性能和力学性能易产生不良影响。

Effect of minor Sc and Zr addition on microstructure and properties of ultra-high strength aluminum alloy

The Al-9Zn-2.8Mg-2.5Cu-xZr-ySc alloys （x=0, 0.15%, 0.15%; y=0, 0.05%, 0.15%）, produced by low-frequent electromagnetic casting technology, were subjected to homogenization treatment, hot extrusion, solution and aging treatment. The effects of minor Sc and Zr addition on microstructure, recrystallization and properties of alloys were studied by optical microscopy （OM）, scanning electron microscopy （SEM） and transmission electron microscopy （TEM）. The results show that Sc and Zr addition can refine grains of the as-cast alloy by precipitation of primary Al3（Sc,Zr） particles formed during solidification as heterogeneous nuclei. Secondary Al3（Sc,Zr） precipitates formed during homogenization treatment strongly pin the movement of dislocation and subgrain boundaries, which can effectively inhibit the alloys recrystallization. Compared with the alloy without Sc and Zr addition, the Al-Zn-Mg-Cu-Zr alloy with 0.05%Sc and 0.15%Zr shows the increase in tensile strength and yield strength by 172 MPa and 218 MPa, respectively. Strengthening comes from the contributions of precipitation, substructure and grain refining.

Al-Zn-Mg-Cu-Sc-Zr合金均匀化过程中的析出特性

采用金属模熔铸工艺制备含0.2%Sc(质量分数)的Al-Zn-Mg-Cu-Sc-Zr合金,分别研究合金铸态下和4种均匀化热处理工艺下的组织转变与元素分布。结果表明:加入0.2%的钪有助于抑制枝晶偏析,消除非平衡共晶组织,得到晶粒尺寸为55~80μm(占整体75%)的合金;铸态组织晶界处分布有大量T(AlZnMgCu)相,在465℃下保温24 h后,T相完全转化为S(Al_(2)CuMg)相;温度提高到480℃后,随着时间延长至24 h,晶界处的S相消失,只有少量的杂质相(Al7Cu2Fe)残留;在经过双级均匀化处理后,平均晶粒尺寸减小到40μm,合金内部析出大量弥散分布的尺寸约为40 nm的L12型Al3Sc相,与α(Al)基体保持完全共格,有效阻碍了晶粒的粗化。

Effect of aging time on precipitation behavior, mechanical and corrosion properties of a novel Al-Zn-Mg-Sc-Zr alloy

The precipitation behavior, mechanical properties and corrosion resistance of a novel Al-Zn-Mg-Sc-Zr alloy aged at different time were studied by optical microscopy（OM）, scanning electron microscopy（SEM）, transmission electron microscopy（TEM）, tensile tests, potentiodynamic polarization and electrochemical impedance spectroscopy. The results revealed that with increasing aging time at 120 ℃, the hardness and tensile strength of the alloy increased rapidly at first and then slightly decreased. The resistance of exfoliation corrosion（EXCO） and intergranular corrosion（IGC） increased gradually with increasing aging time. The same trend of corrosion properties was demonstrated by electrochemical polarization curves and EIS test. The characteristics of grain boundary precipitates and precipitate free zone（PFZ） had a significant influence on the mechanical and corrosion behaviors of the studied alloy. On the basis of TEM observations, the size of grain boundary precipitates and the width of PFZ became larger, and the distributed spacing of grain boundary precipitates was enhanced with increasing aging time.

Al-6Mg-0.52Mn-0.15Sc-0.1Zr合金铸锭的均匀化退火及组织演变

采用差热分析仪(DSC),光学显微镜(OM),扫描电镜(SEM),透射电镜(TEM)、布氏硬度测试等方法研究了Al-6Mg-0.52Mn-0.15Sc-0.1Zr合金铸锭在单、双级均匀化过程中组织,性能演变。研究结果表明:合金铸锭组织中存在着严重的枝晶偏析,非平衡共晶组织沿晶界呈连续链状分布;铸态合金在均匀化处理过程中,350℃以下均匀化时,合金硬度随均匀化退火温度升高而升高;350℃以上均匀化时,合金硬度和硬度峰值随退火温度上升而降低。电导率则随退火温度的升高和保温时间的延长而单调上升。合金于320℃保温最有利于获得尺寸细小、弥散的Al_(3)(Sc,Zr)析出相;再将温度提高到420℃进行均匀化,能够消除晶界上存在的非平衡共晶组织。确定该合金铸锭的最优均匀化工艺为320℃8 h+420℃4 h。

微量Sc对6005A合金微观组织与拉伸性能的影响

采用铸锭冶金法制备出不同Sc含量的6005A合金铸锭,合金铸锭经均匀化、热轧、中间退火、冷轧成2.5 mm厚的薄板,研究Sc含量对6005A合金拉伸性能、晶粒大小、金相组织及其相组成的影响。结果表明:微量Sc可提高6005A合金的强度,其中含0.07%Sc的合金具有最佳的拉伸性能,其抗拉强度、屈服强度分别提高19 MPa、47 MPa,伸长率也提高1.2%;添加微量Sc的合金晶粒得到细化,且随着Sc含量的增加,细化效果越明显;添加微量Sc减合金中枝晶的偏析,形成弥散的Al_(3)Sc相,抑制合金的再结晶;随着Sc含量的增加,晶内弥散的Mg_(2)Si相得到细化。

Sc在Al-Cu合金中的作用研究进展

鉴于Al-Cu合金具有优异的综合性能,综述了国内外Sc及Sc与其他元素联合添加在Al-Cu合金中作用的研究进展,包括添加Sc或联合添加Sc与其他元素后,Al-Cu合金晶粒大小、物相组成及分布、物理力学性能等的变化,分析讨论了在未来进行相关研究时的注意事项及需要进一步研究的内容。