1) strength / aluminium silicate fibers
强度/硅酸铝纤维
2) Al-silicate fibre reinforced MMC
硅酸铝短纤维强化MMC
3) high-purity aluminium silicate fiber
高纯硅酸铝纤维增强体
4) aluminium silicate fiber reinforcement
硅酸铝纤维增强体
5) aluminum silicate fibers
硅酸铝纤维
1.
Al2O3-SiO2/AZ91D magnesium matrix composites with compacted structure were prepared with aluminum silicate fibers and AZ91D magnesium alloy by squeeze casting method.
采用硅酸铝纤维和镁合金制备出结构紧密的Al2O3-SiO2/AZ91D镁基复合材料。
2.
Specific to difficult for aluminum silicate fibers into paper and intensity of the paper is not high,Through a series of experiments researched on carboxyl methyl cellulose (CMC),modified polyvi- nyl alcohol (PVA),cationic starch are commonly used on adhesive,which effected on aluminum silicon fibers into paper,performance of strength.
针对硅酸铝纤维难成纸且成纸强度不高的问题,本文通过一系列实验研究了羧甲基纤维素(CMC)、改性聚乙烯醇(PVA)、阳离子淀粉(CS)三种常用胶粘剂对硅酸铝纤维成纸、增强性能的影响。
6) aluminum silicate fiber
硅酸铝纤维
1.
The application of boric acid modified phenolic resin in aluminum silicate fiber paper
硼酸改性酚醛树脂在硅酸铝纤维纸中的应用
2.
To solve the low strength problem of silica aerogel,the nanoporous super insulation materials,reinforced with aluminum silicate fiber,were prepared from TEOS through sol-gel process and supercritical drying technology.
为解决SiO2气凝胶质脆的难题,以正硅酸乙酯为硅源,采用溶胶-凝胶法和超临界干燥工艺制备了硅酸铝纤维增强纳米孔超级绝热材料,容重为74~189 kg。
3.
Flexible micro-porous calcium silicate insulation material is composed of porous spherical agglomerates consisting of many tiny needlelike xonotlite crystals and aluminum silicate fiber,most part of which has been formed flexible ceramic fiber paper before formation of the insulation material.
微孔硅酸钙柔性隔热材料由以硬硅钙石针状微小晶体构成的微孔硅酸钙球形颗粒和硅酸铝纤维复合而成,其中大部分硅酸铝纤维首先形成柔软的纸型材料,微孔硅酸钙颗粒和其余硅酸铝纤维沉积其上,填充在硅酸铝纤维之间的大孔隙中。
补充资料:硅酸铝纤维增强体
分子式:
CAS号:
性质:主要成分为氧化铝、二氧化硅和少量添加氧化硼或氧化锆的纤维。有晶质纤维和非晶质纤维两种。纤维直径一般为9μn),密度3.2g/cm3,拉伸强度2.6GPa,模量260GPa,可耐1300℃。采用干法纺丝,再600℃裂解法制取。用于增强铅基复合材料,制造高性能发动机部件。
CAS号:
性质:主要成分为氧化铝、二氧化硅和少量添加氧化硼或氧化锆的纤维。有晶质纤维和非晶质纤维两种。纤维直径一般为9μn),密度3.2g/cm3,拉伸强度2.6GPa,模量260GPa,可耐1300℃。采用干法纺丝,再600℃裂解法制取。用于增强铅基复合材料,制造高性能发动机部件。
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