氧化铝纤维 meaning in Chinese
alumina based fibre
alumina fiber
alumina fibre
aluminium oxide fiber
aluminium oxide fibre
sa hire fibre
sapphire fibre
sapphire whisker
Examples
- This paper expatiated on the developing history , the present research situation , the reinforced mechanism and the application prospect of the fcmc , and the paper also studied the technological parameter and influencing factors of fabricating alumina fiber - alumina composites
本文阐述了纤维增强陶瓷基复合材料的发展历史、研究现状、增强原理及其应用前景。研究了制备氧化铝纤维? ?氧化铝复合材料的工艺参数和影响因素。 - 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
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。 - When the alumina fiber accounted for 10 % , the density of the composites was chiefly high and the fiber evulsion effect was reinforced ; when the alumina fiber accounted for 30 % , the fiber evulsion effect , fracture and bridge - connection effect were mainly strengthened , when the fiber proportion was 50 % , at the temperature of 1500 c , the bending strength reached 26 . 11 mpa while the compressive strength was 79 . 30 mpa
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;氧化铝纤维含量为30时,复合材料以纤维拔出、断裂、桥联效应增强为主。当纤维含量为50时,在1500下烧成,其抗折强度达到26 . 11mpa ,耐压强度达到79 . 30mpa ,该复合材料可用作轻质保温材料。 - Abstract : the development and importance of continuous alumina fibers is reviewed . three main preparation methods , mechanical and optical properties as well as resistance to high temperature of alumina fibers are presented , and its applications in structural and functional composites and heat insulation materials are also introduced in this paper
文摘:综述了连续氧化铝纤维的重要性和国内外发展状况;介绍了该纤维的三种主要制备方法,比较了其力学、光学和耐高温等性能,并概述了连续氧化铝纤维在结构和功能型复合材料以及高技术隔热材料等重要领域的应用情况。 - 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 . when the sintering temperature was 1550 c , the compressive strength which could reach 332 . 78 mpa , was the biggest ; when the sintering temperature was 1550 c , the bending strength which could reach 44 . 04 mpa , was the biggest
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;烧成温度在1550时,复合材料的耐压强度最高,达到332 . 78mpa ,在1500时,复合材料的抗折强度最高,达到44 . 04mpa 。