铝基纳米复合材料的电子显微镜研究

一种由部分非晶和部分晶体组成的新型铝合金可以用液态旋淬法直接制备，其力学性能非常优异。电镜观察表明这种纳米复合材料具有新颖的结构：纳米级Ａｌ晶体均匀弥散分布在非晶体上且无择优取向，Ａｌ晶体具有面心立方结构。高分辨电镜初步结果显示这种Ａｌ了无内部缺陷，但存在某种程度的畸变，且界面结构非常复杂。     

New inverse method for identification of constitutive parameters

A new inverse method by coupling iSIGHT and ABAQUS was proposed to determine the constitutive parameters of Al2O3sf/LY12 composite deforming at elevated temperature. It combined the merits of the f＇mite element simulation and optimization technique. The direct model was simulated with finite element code ABAQUS. The inverse problem associated with the identification of the constitutive parameters was expressed as a least square optimization problem. The direct simulation and the parameters optimization were implemented in iSIGHT integrated environment. The aim was to match the output of the direct simulation with the experiment data. The capability of the proposed inverse method was demonstrated through the identification of constitutive parameters of Al2O3sf/LY12 composite. The proposed new inverse method is also applicable to other parameters identification which is hardly determined through experiments or direct analytical method.     

Preparation of carbon nanotube composite material with metal matrix by electroplating

It is demonstrated that the nickel can be deposited directly on the surface of carbon nanotubes without pre-sensitization by Sn^2＋ and Pd^2＋ in a watt bath containing suspended nanotubes by electroplating. The nickel is deposited as spherical nanoparticle on the nanotubes. By increasing reaction time, the carbon nanotube is fully coated with nickel. A probable model, which represents the formation process of carbon nanotube-nickel composites by electroplating, is presented. The results show that this method is efficient and simple for preparing carbon nanotube-metal composite.     

稀土La对Al-Si合金复合材料凝固组织与溶质偏析的影响

利用挤压铸造法制备了Al2O3/Al-Si-La复合材料;研究了稀土La对复合材料凝固组织以及基体合金凝固时溶质偏析的影响。结果表明,稀土La可细化基体合金的凝固组织,La富集在界面附近,有利于改善铝合金液对氧化铝短纤维的润湿性,但是未发现任何富稀土相在界面上形成。稀土La对基体合金中镁的偏聚没有明显的影响,镁和稀土La均在界面处富集,且它们的分布位置大致近似。     

高频焊管用464-H14铝复合带材力学性能的研究

结合工业生产研究了高频焊管用464－H14铝合金复合带材的退火工艺和加工工艺对材料力学性能的影响。结果表明：成品材料冷轧前的软化退火温度应选择在既能使材料完全软化而又不发生Si原子扩散的350－400℃之间，冷加工率应控制在20％－40％，这样可使材料获得较好的力学性能，能够满足产品的技术标准和使用要求。     

Ti5Nb人工钉扎中心NbTi超导体的磁通钉扎机制分析

采用棒基组合的装配方法，用热挤压和冷加工相结合的工艺制备了岛状Ti5Nb人工钉扎中心NbTi超导体，其中Ti5Nb体积含量为10％。通过对此超导体进行详细的磁通钉扎机制分析，认为样品的磁通钉扎力特征主要由正常相钉扎和Δκ扎相结合的机制决定。根据分析的结果，采用多源标度方法，很好地拟合了不同线径样品的磁通钉扎力密度随磁场变化的曲线。拟合的结果表明：样品在较低场下的性能主要由正常相钉扎机制决定，而在较高场下的性能主要由Δκ钉扎机制决定。并且随着线径的减小，正常相钉扎力密度和Δκ钉扎力密度均有不同程度的提高。     

La0．8Ca0．2CrO3钙钛矿复合氧化物的GNP法合成与表征

采用GNP（Glycine-Nitrate Process）法合成La0.8Ca0.2CrO3初级粉料，研究甘氨酸用量对产物的晶体结构和显微形貌的影响，并测试烧结体的相对密度和电导率。研究结果表明，甘氨酸与金属离子的摩尔比（G／M^n＋）控制在2．0～2．5时可得到颗粒尺寸细小、均匀（100nm～200nm）的单相钙钛矿粉体，烧结温度为1350℃时样品的相对密度达到91．0％，测试温度为800℃时样品的电导率达到30．5S.cm^-1。与常规固相法相比，GNP法制备的样品具有更好的烧结活性和导电性能。     

PZT／Terfenol-D／PVDF层状复合磁电材料谐振特性

采用热压法制备出二层锆钛酸铅(PZT)／聚偏氟乙烯(PVDF)与1层Tb0.28Dy0.72Fe2(Terfenol-D)／PVDF叠层结构的三元复合磁电材料，研究了不同PVDF含量，以及不同层厚比tp／L对样品的介电常数、介电损耗、电阻率、谐振频率以及磁电转换系数αE33，αE31的影响规律，结果显示PVDF的含量和层厚比都存在最佳值(最佳值出现在产0．5，tp／L=2／7)，并且在这个最佳值处，磁电转换系数达到最大。     

Preparation and mechanical properties of Fe_3Al/Al_2O_3 nano-/micro-composite

1　INTRODUCTIONAlumina(Al2 O3)ceramicsareoftenconsideredforstructuralapplications,duetotheirpropertiesofhighhardness ,chemicalandwearresistanceandgoodmechanicalpropertiesatroomandhightemperature .Thewellknownlimitationfortheseceramics ,how ever ,istheverylowtoughness .Recentstudieshaveshownsignificantimprovementsinmechanicalprop erties ,includingtoughness ,byaddingductilesecondphaseparticles ,suchasNi,Al,MoandCu[14 ] .Anincreaseof 80 % 333%inthefracturetoughnesshasbeenreportedforAl2 O3…