碳酸锌 meaning in Chinese
calamine
tutia
tutty
zinc carbonate
Examples
- Preparing alkali zinc carbonate and active oxide zinc from zinc smoke ash
锌烟灰制取碱式碳酸锌及活性氧化锌 - Research on mechanism and kinetics of the thermal decomposition of precursor basic zinc carbonate in the preparation of nanometer zinc oxide
制备纳米氧化锌前驱体碱式碳酸锌的热解动力学 - The catalytic properties of zinc oxide catalysts from zinc oxide , zinc acetate calcined at 600 and zinc carbonate prepared through deposition , in the synthesis of dimethyl carbonate by alcoholysis of urea were studied
摘要研究了在600煅烧氧化锌、醋酸锌和沉淀法制得碳酸锌而得到的氧化锌催化剂,对尿素醇解制备碳酸二甲酯的催化作用。 - Hence we combined coprecipitation method , using zinc carbonate as enclosure dose causing the crystal nucleus can not grow up , zinc titanate acts as phase - transition accelerant , thereby we can obtain rutile nanometer tio2 powder at lower calcining temperature and in briefer calcining time relatively
因此我们结合共沉淀法,引入碳酸锌作包覆剂控制品粒长大,利用钛酸锌作品型促进剂,在相对较低的焙烧温度和较短的保温时间内制得到了金红石型纳米tio _ 2粉体。 - The optimum conditions of preparation were as fellows : the concentration of zinc sulfate solution of 1 . 8 - 2 . omol / l , the concentration of ammonium bicarbonate solution of 1 . 4 ~ 1 . 6mol / l , the time of ultrasonic radiation of 25 ~ 30min . iv . preparation of active zinc oxide by means of microwave radiation to calcine precursor of basic zinc carbonate firstly , and a mechanism on preparation of ultra - fine active zinc oxide by means of microwave radiation has been investigated emphatically as well as the effects on quality of ultra - fine active zinc oxide have been analyzed and discussed in detail , the time of microwave radiation was 7 ~ 16 min ; comparing microwave radiation calcining with conventional calcining , the calcining time of microwave radiation was one thirty to one twenty , the calcining time shortened hugely , energy consumption saved hugely , the quality of product improved
首次引入超声波辐射制备超细活性氧化锌前驱体碱式碳酸锌新技术,研究了超声波辐射制备前驱体碱式碳酸锌的机理,并分析和讨论了影响前驱体质量的各种因素,确定了最佳的前驱体制备条件为:硫酸锌浓度为1 . 8 2 . 0mol / l ,碳酸氢铵的浓度为1 . 4 1 . 6mol / l ,超声波辐射25 30min ; 4 、首次采用微波加热煅烧前驱体碱式碳酸锌制备超细活性氧化锌的新技术,研究了微波辐射加热煅烧前驱体制备超细活性氧化锌的机理,并分析和讨论了影响活性氧化锌质量的各种因素,确定了最佳的超细活性氧化锌制备条件为:微波加热煅烧时间为7 16min ,与传统煅烧方法相比,煅烧时间仅为传统的1 30 1 20 ,大大缩短煅烧时间,节省能耗,提高了煅烧产品的质量; 5 、完成了从锌浮渣中制备超细活性氧化锌的小试试验和扩大试验。