氧化铝纤维

综述了连续氧化铝纤维的重要性和国内外发展状况；

The development and importance of continuous alumina fibers is reviewed .

氧化铝纤维对锌合金复合材料凝固组织的影响

Effects of alumina fibers on solidified structure of zinc alloy composites

氧化铝纤维含量对Al2O（3f）+Cf/ZL109混杂复合材料耐磨性能的影响

The Effect of Alumina Fiber Volume Fraction on Wear Resistance of Al_2O_ ( 3f ) + C_f / ZL109 Hybrid Composites

烧结芯氧化铝纤维含量对蒸发段换热系数he、冷凝段换热系数hc和烧结热管总热阻R有很大的影响。

Evaporation heat transfer coefficient he and condensation heat transfer coefficient hc as well as heat pipe thermal resistance R were all greatly influenced by the concentration of the alumina fiber in sintered capillary wicks .

多晶氧化铝纤维制品在均热炉砂封上的应用

Application of polycrystal alumina fibre products for sand seal in soaking pit

铝/氧化铝纤维预制体的液态浸渗动力学

Kinetics of infiltration of liquid aluminium into alumina fibrous preform

烧成温度对氧化铝纤维/红柱石复合材料性能的影响

Influences of burning temperatures on alumina fiber reinforced andalusite composites

氧化铝纤维增强铝基复合材料热磨损研究

Study of Heat Wear of Alumina Fiber Reinforced Al-Matrix Composite

连续氧化铝纤维制造、性能与应用

Preparation , Properties and Applications of Continuous Alumina Fibers

氧化铝纤维增强红柱石基复合材料的制备与性能

Preparation and properties of alumina fiber reinforced andalusite composite

氧化铝纤维在建筑乳胶涂料中的应用

Use of Aluminum Oxide Fiber in Architectural Latex Coatings

红柱石粒度对氧化铝纤维增强红柱石基复合材料烧结性能的影响

Influence of andalusite particle size on sintering property of alumina fibre reinforced andalusite composites

稳定多晶氧化铝纤维质量之研究

Study on stabilizing quality of polycrystalline alumina fiber

利用液态浸渗技术制备了氧化铝纤维增强铝基复合材料。

Alumina fiber reinforced Al matrix composites are fabricated by means of liquid infiltration techniques .

氧化铝纤维先驱体的化学合成

Chemical synthesis of aluminium oxide precursor fiber

氧化铝纤维的结构和力学性能

Structure and mechanical properties of alumina fibres

探究了不同溶胶组成对氧化铝纤维微观结构、物相转变和纤维隔热性能的影响。

The composition of sol impact on the microstructure of fibers , phase transformation and insulation performance were investigated .

氧化铝纤维含量为10%和30%的试样增强机理不同，含量为10%时，复合材料以基质密实度高、纤维拔出效应增强为主；

The reinforced mechanisms were different when the alumina fiber had the different proportions of 10 % and 30 % .

氧化铝纤维与铝合金基体之间的界面对材料性能影响很大。

And the interface between the fibers and aluminum alloy matrix has great effect on mechanical properties of the composites .

氧化铝纤维因其优异的机械力学性能、高温隔热性能等吸引了许多研究者广泛的研究兴趣。

Alumina fibers have attracted great interests due to their excellent mechanical property and high temperature heat insulation performance and so on .

此外，还利用不同组成的铝溶胶制备了柔性的γ和α氧化铝纤维，研究了不同溶胶组成对氧化铝纤维微观结构和隔热性能的影响。

Microstructure of the alumina fibers affected by the composition of aluminum sol and heat insulation performance of the fibers were studied .

结果表明，纳米氧化铝纤维是在阳极氧化铝的多孔层形成的，且在浸溃过程中阻挡层和多孔层表现出完全不同的溶解趋势。

It is proved that alumina nano-fibers are formed from the porous layer , while totally different behaviors of the barrier layer a.

本文综述了纤维载体，包括碳纤维、玻璃纤维和氧化铝纤维以及由此制备的催化剂的发展概况。

A review is given for the development of fibrous carriers including carbon fiber , glass fiber and alumina fiber and catalysts prepared therefrom .

叙述了用多晶氧化铝纤维和高铝纤维制成的混合纤维段制品的生产工艺。

The blended fiber product is made from polycrystalline fiber and high alumina fiber , which can stand for high temperature of 1350 ℃ for long term ;

氧化铝纤维因其优异的性质而被人们广泛的研究，本文主要是利用溶胶凝胶技术制备了氧化铝连续纤维和氧化铝-氧化锆复合纤维。

Alumina fibers have been extensively investigated because of their excellent properties . In this paper , alumina continuous fibers and alumina-zirconium fibers were prepared by sol-gel technology .

本产品使用高温度可以达到1750℃，是我国目前硅酸铝、多晶莫来石、氧化铝纤维等轻质材料无法达到的。

The application temperature can be high as17500C which is not available for aluminium silicate , polycrystal mullite , alumina based ceramic fiber or any other light weight brick in the market .

结果表明氧化铝纤维与硅相之间存在共格界面，可作为硅相非自发形核的衬底；

The results indicate that there is a coupled interface between alumina fiber and Si phase , and the fiber can serve as propitious sites for the heterogenous nucleation of Si phase .

介绍一种高效、多孔性钯/氧化铝纤维催化燃烧板的研制及其转化效率和催化活性、寿命、耐硫性等实验室试验。

The development of a porous palladium / fibrous aluminium oxide catalytic combustion plate and its tests including conversion efficiency and catalytic activity evaluation test , life test and sulfur-resistant test in the lab are reported .

以红柱石和氧化铝纤维为原料，用硫酸铝作为结合剂，经过分散、混合、半干法成型、高温烧成工艺，对氧化铝纤维增强红柱石基复合材料的制备及性能进行了研究。

Taking the andalusite from South Africa and alumina fiber as raw materials , adding aluminum sulphate as binder , fabrication and properties of alumina fiber reinforced andalusite composite was studied through wet dispersion , mould pressing and sintering processes .

在同一烧成温度下，氧化铝纤维含量为10%时，复合材料的气孔率最低，体积密度最大，耐压强度和抗折强度最高；

At the same sintering temperature , when the alumina fiber accounted for 10 % , the porosity of the composites was the lowest , the volume density was the biggest , and the compressive strength and the bending strength were the highest .