|
|
|
| Airflow classification practice of ultra-fine micron spherical silver powder |
| HA Min,ZHENG Wei,LI Guang-kun,HU Nan,ZHONG Xiang,SHI Wen-feng |
| (Ningxia Northwest Rare Metal Research Institute, Shizuishan 753000, China) |
|
|
|
|
Abstract The airflow classification process of ultrafine spherical silver powder with particle size of 0.500-3.000 μm was introduced. Spherical silver powder with three sections of particle sizes was obtained by changing the rotating frequency of the grading wheel to simulate multi-stage grading conditions. Results show that the particle size distribution of the graded product becomes narrow, and the particle size of the spherical silver powder in the middle section is 1.000-1.500 μm. The PV conversion efficiency of solar paste fabricated with middle section silver powder is significantly improved.
|
|
Received: 10 April 2017
Published: 12 October 2018
|
|
|
|
| [1] Oleg D Neikov,I. B. Murashova,Nicholas A. Yefimov,Stanislav Naboychenko,Handbook of Non-Ferrous Metal Powders: Technologies and Applications[M].London,Elsevier,2012:424-426.[2] Gunnar Schubert,Frank Huster.Current Transportation Mechanism In Printed AG Thick Film Contacts To An N-type Emitter Of A Crystalline Silicon Solar Cell,Proceedings of the 29th IEEE PV Conference Glasgow,(2002)343-356.[3]刘志宏,刘智勇,李启厚,等. 喷雾热分解法制备超细银粉及其形貌控制[J]. 中国有色金属学报,2007,17(1):149-155.[4]大海谷里,球形银粉及其制备方法:日本,2010-070793[P].2010.4.2[5]吴建明?.当前技术水平的干式分级设备[J].有色金属(选矿部分),2010, (5):55-75.[6]邓丽荣,王晓刚 等.β-SiC微粉的气流分级工艺[J]. 中国粉体技术,2012,8(4): 47-50. [7]王彦军,刘葵 等.超细锌粉生产中气流分级工艺的改进[J].有色金属,2007,59(4):56-59.[8]施文锋.高结晶度银粉的制备方法:中国,CN102441675B[P].2014.6.1[9]曾川?刘传慧 等.二次风量对LNJ-36A型气流分级机分级性能的影响[J].化工进展,2015, (11):34-38.[10]梅芳?张庆红.气流分级的"鱼钩效应"研究第四届粉体工程学术会议论文集.郑州.1996.4[11]陈迎龙?甘卫平 等.?正面银浆银粉特性和烧结工艺对太阳能电池性能的影响[J].粉末冶金工业,2012, 22(6):17-24. |
|
|
|
2018, Vol. 28 
