2) oxidized cotton fiber
氧化棉纤维
1.
Covalence structure of oxidized cotton fiber treated by fibroin solution;
丝素蛋白氧化棉纤维的共价结构分析
3) Alumina fiber
氧化铝纤维
1.
Influences of burning temperatures on alumina fiber reinforced andalusite composites;
烧成温度对氧化铝纤维/红柱石复合材料性能的影响
2.
The results indicate that the alumina fibers is uniform in distribution and can serve as the sites for heterogeneous nucleation of silicon phase,and that the interfaces between the fibers and the aluminum alloy matrix have a great effect on the mechanical properties of the composites.
结果表明 ,在复合材料中纤维分布均匀 ,氧化铝纤维可作为硅相非自发形核的衬底 ;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。
3.
In this paper,the features of the new generation of continuous high-strength alumina fiber rein- forced aluminum composites,and their value and potential for applications are discussed in the respects of its fabrica- tion,performanee and application.
从制备、性能和应用几个方面概述了近几年新兴的连续高强氧化铝纤维增强铝基复合材料的特点,以及该类复合材料所具有的良好应用价值和应用前景。
4) Oxycellulose
[,ɔksi'seljuləus]
氧化纤维素
1.
Study on oxidation of cellulose to oxycellulose by sodium periodate;
高碘酸钠氧化纤维素的研究
2.
Oxygen Carrier Based on Immobilized Hemoglobin(Ⅱ) Hemoglobin Covalently Bond to Periodate Oxycellulose;
固定化血红蛋白氧载体的研究(Ⅱ)──氧化纤维素共价键联血红蛋白
3.
The preparation of different aldehyde content oxycellulose was studied by orthogonal experiments in this paper.
本文采用正交试验法,以高碘酸钠为氧化剂,α-纤维素为原料,进行了反应温度、纤维素与高碘酸钠质量比、不同pH值的溶剂等一系列条件的研究,合成了不同醛基含量的氧化纤维素,发现对醛基含量影响最大的因素是温度和高碘酸钠的浓度,其次是pH值和纤维素与高碘酸钠质量比的交互作用。
5) preoxidized fiber
预氧化纤维
1.
Characterization of cyclization degree and mechanical properties of polyacrylonitrile-based preoxidized fiber
聚丙烯腈基预氧化纤维环化程度及力学性能的表征
2.
PAN fiber and preoxidized fiber have a close relationship with carbon fiber.
PAN纤维、预氧化纤维的微观形态结构与最终碳纤维的结构有着密切的关系。
6) zirconia fiber
氧化锆纤维
1.
Strengthened with polysulfone (PS) ultra filtration membrane, the tensile strength of the zirconia fiberseparator material was improved from 102g/cm(width) to 198g/cm(width), the alkali absorption was improved from2cm/min to 4cm/min and the other performances, such as the thickness, porosity and surface resistance, were not af-fected.
以聚砜微孔膜为增强体制备增强的氧化锆纤维隔膜材料,可使布膜的强度由原来的102g/cm(宽)提高到现在的198g/cm(宽),吸碱速率由原来的2cm/min提高到现在的4cm/min,而其它的性能如厚度、孔隙率及面电阻等基本不受影响,研制的氧化锆纤维碱性电池隔膜材料基本满足工程化应用的要求。
2.
Process and special capability of zirconia fiber prepared by precursor method are introduced in this paper and the phase transition is also expressed.
氧化锆纤维是一种性能优良的特种无机纤维,耐高温、耐腐蚀、抗氧化,具有广泛的应用前景。
补充资料:多晶氧化铝纤维
分子式:
CAS号:
性质:又称多晶氧化铝纤维。制法不同其Al2O3的结晶态和含量各异。直径10~20μm。密度2.7~4.2g/cm3。强度1.4~2.45GPa。模量190~385GPa。最高使用温度为1100~1400℃。制法:(1)前驱体法,将聚铝噁烷与硅酸酯载体溶于有机溶剂中干纺,在1000℃空气中烧成,得到含SiO2的γ-Al2O3纤维;更换原料和载体可得α-Al2O3-ZrO2纤维;(2)淤浆法,将α-Al2O3粉、Al(OH)2Cl·2H2O及少量MgCl2·6H2O所组成的淤浆干纺,在1000~1500℃烧成而得α-Al2O3纤维;(3)胶体法,在含HCOO-和CH3COO-离子的Al2O3溶胶中加入硅溶胶和硼酸,纺丝后烧成而得(9Al2O3·2B2O3+无定形SiO2)纤维。用作结构和功能复合材料增强剂,如电磁波屏蔽材料等。
CAS号:
性质:又称多晶氧化铝纤维。制法不同其Al2O3的结晶态和含量各异。直径10~20μm。密度2.7~4.2g/cm3。强度1.4~2.45GPa。模量190~385GPa。最高使用温度为1100~1400℃。制法:(1)前驱体法,将聚铝噁烷与硅酸酯载体溶于有机溶剂中干纺,在1000℃空气中烧成,得到含SiO2的γ-Al2O3纤维;更换原料和载体可得α-Al2O3-ZrO2纤维;(2)淤浆法,将α-Al2O3粉、Al(OH)2Cl·2H2O及少量MgCl2·6H2O所组成的淤浆干纺,在1000~1500℃烧成而得α-Al2O3纤维;(3)胶体法,在含HCOO-和CH3COO-离子的Al2O3溶胶中加入硅溶胶和硼酸,纺丝后烧成而得(9Al2O3·2B2O3+无定形SiO2)纤维。用作结构和功能复合材料增强剂,如电磁波屏蔽材料等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条