亚微米Al_2O_3颗粒的微观结构及Al_2O_(3p)/1070Al复合材料的界面

利用透射电镜和高分辨电镜对直径为 0 .15 μm的球形Al2 O3 颗粒增强相及其增强 10 70Al复合材料的界面进行了观察 ,结果表明 :Al2 O3 颗粒是由一些角度相差较小的晶面构成的多面体 ,多面体的各晶面是由密排面沿着密排晶向形成的台阶式结构 ;0 .15 μm的Al2 O3 p/10 70Al复合材料界面结合良好 ,没有发现任何界面反应物 ;由于颗粒的台阶式结构导致铝基体与Al2 O3

挤压铸造TiB_(2P)/Al复合材料的组织与性能

采用挤压铸造法制备TiB2P/Al复合材料,并借助XRD,SEM,TEM和三点弯曲、摩擦磨损等分析测试手段研究了该材料的组织和性能。结果表明,复合材料组织致密,颗粒分布均匀,相组成主要为Al和TiB2。TEM观察表明,T6态复合材料基体中发现大量细小的β′析出相和位错。部分界面上存在不连续的块状反应物MgAl2O4。45%TiB2P/Al(体积分数,下同)复合材料的抗弯强度为934MPa,弹性模量为183GPa,比30%TiB2P/Al复合材料的分别提高了34%和28%。常温干摩擦条件下,TiB2P/Al复合材料摩擦系数变化平缓(在0.2左右波动),明显低于铝合金的摩擦系数;且复合材料的磨损表面较为平整、光滑,未观察到大塑性变形,呈现出良好的自润滑性能。

(Al_2O_3+Si)_p/Al系铝基复合材料的原位制备及性能

以Al-Si O2为体系,通过粉末冶金液相烧结的方法原位合成(Al2O3+Si)p/Al系铝基复合材料,利用XRD、DSC和SEM等测试技术测试了复合材料的相组成、密度、电导率及热膨胀性能,观察了Si相和Al2O3相的形貌并分析了相与相之间的反应界面。结果表明,通过该方法可以制备出具有优良性能的电子封装材料,其密度、电导率和热膨胀系数分别达到了2.5 g/cm3、10-7Ω·m和5×10-6/K。原位生成的Al2O3相多数呈圆球状颗粒,Si相以片状形成,随着烧结温度的提高,两种相和基体结合紧密,分布更加均匀分散,且无界面反应物生成。

通过基体合金化制备界面相容的Al_2O_(3p)/Al颗粒增强铝基复合材料

本文提出了通过基体合金化改良Ａｌ２Ｏ３/Ａｌ界面润湿的思路．添加元素Ｍ必须满足以下两个条件:(１)液态金属表面能γＭ＜γＡｌ;(２)氧化物Ｇｉｂｂｓ形成能△ＧＭｘＯｙ＜△ＧＡｌ２Ｏ３,并在实验中得到验证．Ｍｇ是良好的润湿增强剂．而且随Ｍｇ含量的增加,浸润效果增强．Ｂｉ、Ｐｂ和Ｌｉ合金化在Ｍｇ的基础上进一步加强润湿、但Ｃｕ的加入效果相反．在Ａｌ２Ｏ３/６０６１Ａｌ复合材料中,Ｍｇ偏析到界面．且在一定条件下生成界面反应产物ＭｇＡｌ２Ｏ４,但是在Ａｌ２Ｏ３/６２６２Ａｌ复合材料中富集Ｂｉ和Ｐｂ的纳米颗粒存在于增强体之间或增强体内部孔隙．讨论了０．５μｍ或４μｍ Ａｌ２Ｏ３/６０６１Ａｌ和４μｍＡｌ２Ｏ３/６２６２Ａｌ复合材料的力学性能与微观结构．

原位合成(Al_2O_3+Al_3Ti)_P/Al复合材料的制备研究

通过对Al-TiO2-SiO2体系混合粉末固-液原位合成制备出了(Al2O3+Al3Ti)P/Al复合材料。利用X射线衍射仪、扫描电镜等方法观察分析了其物相和显微组织形貌。结果表明:原位反应制备的(Al2O3+Al3Ti)P/Al复合材料,金属间化合物增强相Al3Ti均匀分布于基体,陶瓷相Al2O3颗粒非常细小,弥散分布于基体中,使材料的硬度等性能得到提高。

挤压铸造TiB_(2P)/Al复合材料室温力学性能

采用挤压铸造法制备不同体积分数的TiB2P/Al复合材料,利用扫描电镜、硬度计、拉伸试验机等对复合材料的室温力学性能进行了研究,系统地分析了体积分数和热处理工艺对材料力学性能的影响。结果表明:挤压铸造TiB2P/Al复合材料的布氏硬度、抗弯强度和弹性模量随增强相TiB2体积分数的增加而提高。45%TiB2P/Al复合材料T6处理后硬度和抗弯强度分别比退火态时提高了23%和40%,但热处理状态对弹性模量的影响不大。

Si_3N_4p/Al复合材料动态压缩性能研究

采用无压浸渗的方法制备了陶瓷(Si3N4p)含量为34.4%、46.3%和51.4%的3种Si3N4p/Al复合材料,应用分离式霍普金森压杆装置测试了复合材料在不同应变率下的动态压缩性能,并与准静态压缩性能进行了比较。分析了应变速率和陶瓷含量对复合材料动态性能的影响规律,探讨了复合材料微观组织特征对复合材料动态性能的影响机制。研究结果表明,Si3N4p/Al复合材料的动态压缩强度高于准静态压缩强度;在动态压缩过程中,高应变率载荷导致复合材料铝合金基体中具有高位错累积速率和较高的温升,因而复合材料动态压缩响应表现为"应变率硬化"效应和"热软化"效应的耦合。复合材料的动态压缩强度随着陶瓷含量增加而增加;热软化效应则随陶瓷含量增加、铝合金变形能力下降而相应减弱。

Al_2O_(3P)/Al复合材料钎焊的试验研究

针对Al2O3P/Al复合材料,选用铝基HL401作钎料,选用QJ201为钎剂,在炉中氩气保护下进行钎焊,试验研究了其焊接工艺参数对接头强度的影响。试验表明:采用炉中氩气保护下钎焊Al2O3P/Al复合材料完全可行,用所选择的合适的钎料和钎剂,在优化的工艺参数条件下可获得优质的焊接接头。

热处理温度对Si_3N_(4p)/Al复合材料组织和性能的影响

对压力浸渗制备的Si3N4p/Al复合材料在800~950℃下进行热处理,测试复合材料的相组成、弯曲强度、硬度和断裂韧度变化,观察复合材料断裂特征。结果表明,850℃是一个重要的热处理温度点,在此温度下-βSi3N4和Al开始发生显著的界面反应;对Si3N4p/Al复合材料进行850℃以上热处理可以提高复合材料的硬度、强度,但断裂韧度有所下降;950℃热处理的45vol%Si3N4p/Al复合材料弯曲强度达到498MPa,硬度达到373HBS5/750,断裂韧度为7MPa.m1/2,具有良好的强韧性配合;复合材料断裂以Si3N4陶瓷颗粒脆性解理和铝合金塑性撕裂两种形式为主,少有陶瓷颗粒/铝基体界面解离的情形。

基体中Mg含量对空气气氛下无压浸渗SiC_p/Al微观结构的影响

在空气气氛下,采用无压浸渗法制备高体积分数(65%)碳化硅颗粒增强铝基复合材料(Si Cp/Al)。探究铝镁合金基体中Mg含量对Si Cp/Al复合材料微观结构的影响。XRD和SEM被用作复合材料微观组织及断口形貌分析。结果表明:当基体中Mg含量低于6wt%时,复合材料出现明显的分层现象。Mg含量达到8wt%后,分层消失,材料内部出现不完全浸渗区域。随着基体中Mg含量不断增加,不完全浸渗区域逐渐消失,Mg含量达到14wt%后,Si C预制体可完全被合金基体浸渗,复合材料内部结构均匀。这可能是与Mg相关的界面反应促进了自发浸渗。

CF4在P/Al2O3上的分解反应及活性组分的确认

程序升温联合恒温反应方式研究了CF4在P／Al2O3上分解反应，用XRD、BET表面积测试技术对反应前后的P／Al2O3上进行了表征。结果表明：在Al2O3上表面负载助剂P，生成的ALPO4抑制了CF4高温分解时γ-P／Al2O3上发生仅相变，提高了γ-P／Al2O3上的结构稳定性，但加入P助剂减少了P／P／Al2O3上中P／Al2O3上的含量，使得P／Al2O3的脱氟活性没有显著提高，这说明P／Al2O3中Al2O3是活性成分，AlPO4是Al2O3的保护层。。

Al2O3P／Al复合材料脉冲氩弧焊的实验研究

针对Al2O3P/Al复合材料,选择脉冲氩弧焊和选用合适的填充材料,在优化的焊接工艺参数条件下进行焊接试验。试验结果表明:采用脉冲氩弧焊焊接Al2O3P/Al复合材料完全可行,选择合适的填充材料和优化的工艺参数可获得优质的焊接接头。

基于Ni_2P/Al_2O_3制备与表征的综合化学实验设计

以体相Ni2P和Ni2P/Al2O3催化剂的制备、加氢脱硫性能评价和结构表征设计了一个应用化学专业的综合实验,阐明了研究背景、研究思路、实验方法和数据处理和分析要求。通过综合实验可以使学生进行一次科学研究训练,培养学生综合分析问题和解决问题的能力、科学思维能力和创新能力。

Preparation of Fe_2P/Al_2O_3 and FeP/Al_2O_3 catalysts for the hydrotreating reactions

A 60%Fe/Al_2O_3 catalyst was prepared by the co-precipitation method.It was reduced by H_2 to produce metallic Fe,which was then sulfided by CS_2 to Fe_(0.96) S and Fe_3S_4 or phosphided by triphenylphosphine(PPh3) in liquid phases to Fe2 P and Fe P.It was found that the iron sulfides(Fe0.96 S and Fe_3S_4) exhibited the low activity for the hydrodesulfurization(HDS) reactions.The HDS activity was also low on the Fe(metal)/Al_2O_3 and Fe_2 P/Al_2O_3 catalysts since they were converted into Fe0.96 S and Fe_3S_4 during the HDS reactions.In contrast,the FeP/Al_2O_3 was found to be stable and active for the HDS reactions.In particular,Fe P/Al_2O_3 possessed significantly smaller Fe P particles than Fe P/C,leading to the significant higher HDS activity of FeP/Al_2O_3 than Fe P/C.

原位反应合成致密Al_2O_(3p)-TiC_p/Al复合材料

本文采用高能球磨、原位反应合成及热压技术制备了致密的Al2 O3p TiCp Al复合材料 ,并用XRD、SEM以及EDAX等手段分析了复合材料的相组成、显微组织。结果表明 :Al TiO2 C三元体系在热压反应烧结后 ,可制得致密度较高的Al2 O3p TiCp Al原位复合材料 ,其显微组织中Al2 O3 和TiC颗粒尺寸为 1μm左右 ,分布均匀。

Research on the Characters of the Cutting Force in Vibration Cutting Particle Reinforced Metal Matrix Composites SiC_p/Al

In this paper, turning experiments of machining particle reinforced metal matri x composites(PRMMCs) SiC p/Al with PCD tools have been carried out. The cutting force characteristics in ultrasonic vibration turning compared with that in com mon turning were studied. Through the single factor experiments and multiple fac tor orthogonal experiments, the influences of three kinds of cutting conditions such as cutting velocity, amount of feed and cutting depth on cutting force were analyzed in detail. Meanwhile, according to the experimental data, the empirica l formula of main cutting force in ultrasonic vibration turning was conclude d. According to the test results, the cutting force is direct proportion to cutt ing depth basically according to the relation between cutting force and other fa ctors, which is similar to that of common cutting, so is the feed rate, but the influence is not so big. The influence of cutting speed is larger than that of f eed rate on cutting force because the efficient cutting time increases in vibrat ion cycle with the increase of cutting speed, which causes cutting force to incr ease. The research results indicate: (1) Ultrasonic vibration turning possesses much lower main cutting force than that in common turning when adopting smaller cutting parameters. If using larger cutting parameters, the difference will inco nspicuous. (2) There are remarkable differences of cutting force-cutting veloci ty characteristics in ultrasonic vibration turning from that in common turning m ainly because built-up edge does not emerge in ultrasonic turning unlike common turning in corresponding velocity range. (3) In ultrasonic vibration cutting, t he influence of cutting velocity on cutting force is most obvious among thre e cutting parameters and the influence of feed is smallest. So adopting lower cu tting velocity and larger cutting depth not only can reduce cutting force effect ively but also can ensure cutting efficiency. (4) The conclusions are useful in precision and super precision manufacturing thin-wall pieces.

Study on Interface between Sub-micron Particles and Matrix in Al_2O_3p/Al Composites

The microstructural characteristic of 1070AI matrix composites reinforced by 0.15 祄 AI2O3 particles whose volume fraction was 40% was investigated by TEM and HREM. The results showed that the interface between the matrix and reinforcements was clean and bonded well, without any interfacial reaction products. There were some preferential crystallographic orientation relationships between Al matrix and AI2O3 particle because of the lattice imperfection on the surface of Al2O3 particles.

Al/Al_2O_3P金属基复合材料的静动态压缩性能及损伤分析(英文)

用气压浸渗工艺制备了体积分数40％-50％Al2O3颗粒增强纯铝基复合材料,使用了4种不同尺寸的Al2O3颗粒,其平均粒径分别为5μm、10μm、30μm和60μm.测定了这些复合材料的静、动态压缩性能,并通过材料压缩前后密度变化的测量定量表征了材料的累计损伤.结果表明,与基体材料相似,这些复合材料表现出明显的应变率敏感性;当增强颗粒平均粒径小于60 μm时,材料的累计损伤基本与应变率无关,而主要取决于材料的应变.材料中颗粒的破裂主要是由颗粒间的相互作用引起的.较小尺寸颗粒增强的复合材料具有较高的流动应力和较小的累计损伤,并随着颗粒体积分数的增加,材料的流动应力和损伤率都相应增加.

重整催化剂Ni_2P/Al_2O_3-SAPO-11积炭失活规律研究

Ni_2P/Al_2O_3-SAPO-11催化剂用于催化重整过程易于积炭失活。通过与Ni_2P/Al_2O_3、Pt/Al_2O_3-SAPO-11及Ni/Al_2O_3-SAPO-11催化剂表面积炭行为对比,研究了该催化剂表面的积炭规律。以甲基环戊烷为积炭前驱物,在不同温度下进行加速积炭实验,采用热重-差示热分析表征催化剂表面积炭位置,并以环己烷、正庚烷为模型化合物对积炭前后催化剂进行脱氢-异构反应催化性能评价。结果表明,由于P原子的作用,Ni_2P/Al_2O_3-SAPO-11重整催化剂具备一定的抗积炭性能,其积炭形成速率介于Pt/Al_2O_3-SAPO-11和Ni/Al_2O_3-SAPO-11催化剂之间;积炭在Ni_2P/Al_2O_3-SAPO-11重整催化剂金属活性中心上形成后,逐步迁移到酸性载体上形成聚合度更高的积炭,并且酸性载体上的积炭是催化剂失活的主导因素。

Parameter optimization for plasma-sprayed Al2O3p/Al composite coatings on AZ31 magnesium alloy

Al2O3p/Al composite coatings were prepared on the surface of AZ31 magnesium alloy by plasma spraying technology with mixed powders of Al and Al2O3. An orthogonal test containing six factors and five levels was carried out to acquire the optimum technical parameters. Mierostruetures and properties of the composite coatings were studied. The results show that the coatings consist of Al2O3 particulates distributed uniformly and Al matrix, and the interface between the particulate and matrix is continuous, compact and clean. With increasing the mass fraction of Al2O3 in the mixed powders, the volume fraction of Al2O3 in the coatings iacreases. The Al2O3p/Al composite coating with 14% Al2O3 volume fraction has more compact microstrueture and more satisfactory properties.