1) multilevel spray carbonization
喷雾碳化法
1.
This paper summarized the synthetic methods of various shapes of nano calcium carbonate particles, such as chain like vaterite, spindle, cubic CaCO 3 in details, and reviewed the main manufacture technologies including multilevel spray carbonization, one step carbonization, two step carbonization and novel rotating packed bed reactor carbonization.
对一步碳化法、两步碳化法、多段喷雾碳化法、旋转填充床碳化反应器碳化技术制备链形、纺锤形、球形、立方形等不同形状的纳米碳酸钙材料的方法进行了比较和总
2) multistage spray carbonization
多段喷雾碳化法
1.
s:Four kinds of manufacture procedures including multistage spray carbonization, one-step carbonization, two-step carbonization and rotary packed bed carbonization are introduced.
介绍了纳米级碳酸钙的4种生产方法:多段喷雾碳化法、一步碳化法、二步碳化法和旋转填充床碳化器碳化法。
3) multistage spray carbonation
喷雾碳化
1.
Preparation of nanometer calcium carbonate by multistage spray carbonation;
多级喷雾碳化法制备纳米碳酸钙工艺研究
4) spray-oxidizing process
喷雾氧化法
5) spray drying and carbothermal method (SDCTM)
喷雾干燥-碳热还原法(SDCTM)
1.
Effects of carbon sources on porous LiFePO4/C microsphere were investigated by spray drying and carbothermal method (SDCTM).
采用喷雾干燥-碳热还原法(SDCTM),分别研究了无机和有机碳源对锂离子正极材料LiFePO4/C形貌、结构及其充放电性能的影响。
6) spray method
喷雾法
1.
Water soluble porogens with different particle size were manufactured with spray method by using disodium hydrogen phosphate as raw material.
以磷酸氢二钠为原料,采用喷雾法制备了不同粒径的水溶性球形致孔剂。
2.
Mainly plant diseases in sheltered cucumber are becoming more frequent because diseases can not be controlled by conventional spray,so the paper puts forward a new technology to control cucumber disease by using chlorothalonil powder,and the new method is much more effective and has much lower cost than using conventional spray method.
针对保护地黄瓜病害日趋严峻、采用常规喷雾已无法遏制病害发生发展的问题,提出了用喷粉法取代喷雾法的新技术,应用百菌清复合剂粉尘法来防治保护地黄瓜病害。
3.
as indicator plants, a micro-screening in vivo method for foliar herbicidal activities was studied compared with commonly-used spray method.
以反枝苋、莴苣、马唐和稗草4种植物为指示植物,以常用喷雾法为对照,采用阔叶植物子叶期涂抹法和禾本科植物一叶期涂抹法对化合物除草活性微量活体筛选方法进行了研究。
补充资料:碳化硅晶须补强碳化硅陶瓷基复合材料
分子式:
CAS号:
性质:以碳化硅陶瓷为基和以碳化硅晶须为增强剂的新型陶瓷材料。通过晶须的载荷转移、拔出及裂纹偏转作用,获得比普通碳化硅更高的强度和韧性。使用温度达1400℃。是一种重要的高温结构陶瓷。用于燃气轮机叶片等高温部件和耐磨件制造。采用原位生长工艺和烧结工艺制取。
CAS号:
性质:以碳化硅陶瓷为基和以碳化硅晶须为增强剂的新型陶瓷材料。通过晶须的载荷转移、拔出及裂纹偏转作用,获得比普通碳化硅更高的强度和韧性。使用温度达1400℃。是一种重要的高温结构陶瓷。用于燃气轮机叶片等高温部件和耐磨件制造。采用原位生长工艺和烧结工艺制取。
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