Application : a raw material for producing of various rubidium compounds , widely used in the catalyst , special glass and ceramics etc 用途:取制各种铷盐的基础原料,在催化剂,特种玻璃,陶瓷方面有广泛用途。
Methods for chemical analysis of lithium rubidium and cesium ores - determination of cesium content - flame atomic absorption emission spectrophotometric method 锂矿石铷矿石铯矿石化学分析方法火焰原子吸收发射分光光度法测定铯量
Methods for chemical analysis of lithium , rubidium and cesium ores - determination of lithium content - flame atomic absorption emission spectrophotometric method 锂矿石铷矿石铯矿石化学分析方法火焰原子吸收发射分光光度法测定锂量
Methods for chemical analysis of lithium , rubidium and cesium ores - determination of rubidium content - flame atomic absorption emission spectrophotometric method 锂矿石铷矿石铯矿石化学分析方法火焰原子吸收发射分光光度法测定铷量
In conclusion , dynamic cooling is effective in protecting the epidermis and papillary dermis , while achieving deep tissue photocoagulation during nd : yag laser illumination 因此,在铷雅铬激光对深部组织造成光凝疗效的同时喷射冷却系统可有效的保护表皮。
In conclusion , dynamic cooling is effective in protecting the epidermis and papillary dermis , while achieving deep tissue photocoagulation during nd : yag laser illumination 因此,在铷雅铬雷射对深部组织造成光凝疗效的同时喷射冷却系统可有效的保护表皮。
Methods for chemical analysis of spodumenite and lepidolite concentrates - the atomic absorption spectrophotometric method for the determination of rubidium oxide and caesium oxide contents 锂辉石,锂云母精矿化学分析方法原子吸收分光光度法测定氧化铷和氧化铯量
The results showed that na , mg , k , ca , cu , zn , fe and mn were found in both silk gland and silk fiber , while rb and sr were also possibly contained 结果表明,在桑蚕丝腺体和丝纤维中含有钠、镁、钾、钙、铜、锌、铁、锰八种金属元素,同时还可能含有微量的铷和锶。
Nd : yag laser illumination resulted in deep ( up to 1 . 0 0 . 2 mm ) tissue photocoagulation , while dynamic cooling preserved the overlying epidermis and papillary dermis 本实验结果显示,铷雅铬雷射可造成1 . 0 0 . 2豪米深度的组织破坏同时喷射冷却仍可保持表皮之完整无伤。
The subjects under research include high - performance rubidium atomic frequency standard , microwave and optical trapped ion frequency standard and cold atom frequency standard , etc . the lab 目前正在开展的研究课题有高性能铷频标、离子阱微波频标和光频标、冷原子频标等。
