面向绿色能源产品的多晶硅生产过程少子寿命提升研究

doi:10.16731/j.cnki.1671-3133.2018.04.007

现代制造工程 ›› 2018, Vol. 451 ›› Issue (4): 34-41.doi: 10.16731/j.cnki.1671-3133.2018.04.007

面向绿色能源产品的多晶硅生产过程少子寿命提升研究

于影霞, 盛敬峰

华东交通大学机电工程学院, 南昌 330013

收稿日期:2015-11-26 出版日期:2018-04-20 发布日期:2018-07-18
通讯作者: 国家自然科学基金项目(51265013);江西省自然科学基金项目(20151BAB206007)
作者简介:盛敬峰, 硕士研究生, 主要从事建模仿真、质量预防的研究工作。于影霞, 通信作者, 副教授, 主要从事物流管理、质量预防的研究工作。E-mail:shengfeng2011@126.com

Improving study on minority carrier lifetime of polycrystalline silicon oriented to green energy production in manufacturing process

Yu Yingxia, Sheng Jingfeng

School of Mechanical Engineering, East China Jiaotong University, Nanchang 330013, China

Received:2015-11-26 Online:2018-04-20 Published:2018-07-18

摘要/Abstract

摘要： 为提升绿色能源多晶硅的少子寿命(Minority Carrier Lifetime, MCI), 根据生产过程中影响少子寿命的特性要因, 引入六西格玛管理法, 按照DMAIC(定义D、测量M、分析A、改进I和控制C)分析流程提出质量改进方案并实施, 最终得到满意结果:少子寿命(MCI)由3.69 μs提升到4.16 μs, 工序能力指数C_PK由0.66提高到1.09;实证分析表明, 运用六西格玛管理法不仅提升了硅材料的少子寿命, 实现了预期目标, 还产生了显著的经济收益。

关键词: 绿色能源, 六西格玛管理, DMAIC, 多晶硅, 质量改进

Abstract: In order to enhance the minority carrier lifetime of green energy polycrystalline silicon, according to the production process of the influence factors of MCI, six Sigma was introduced;quality improvement scheme was put forward and then implement by DMAIC analysis process.Finally got satisfied results:MCI increased from 3.69μs to 4.16μs.what`s more, process capacity indicates enhanced from 0.66 to 1.09, The empirical research show that six Sigma method which was successful improved the minority carrier lifetime of silicon material, but also the expect goal was achieved and significantly economic benefits were produced.

Key words: green energy, six Sigma, DMAIC, polycrystalline silicon, quality improvement

中图分类号:

于影霞, 盛敬峰. 面向绿色能源产品的多晶硅生产过程少子寿命提升研究[J]. 现代制造工程, 2018, 451(4): 34-41.

Yu Yingxia, Sheng Jingfeng. Improving study on minority carrier lifetime of polycrystalline silicon oriented to green energy production in manufacturing process[J]. Modern Manufacturing Engineering, 2018, 451(4): 34-41.

参考文献

[1] Mö ller H J, FUNKE C, LAWERENZ A, et al.Oxygen and latticedistortion in multicrystalline silicon[J].Solar Energy Materials&Solar Cells, 2002(72 ):403-416.
[2] CHEN J, SEKIGUCHI T, NARA S, et al.The characterization ofhigh quality multicrystalline silicon by the electron beam induced current method[J].J Phys CondensMatter, 2004(16):S211-S216.
[3] KARG D, PENSI G, SCHULZ M, et al.Oxygen-Related Defect Centers in Solar-Grade, Multicrystalline Silicon.A Reservoir of Lifetime Killers[J].Phys Stat Sol(b), 2000(1):379-387.
[4] 邓海, 杨德仁, 唐骏, 等.铸造多晶硅中杂质对少子寿命的影响[J].太阳能学报, 2007, 28(2):151-154.

[5] 姜丽丽, 路忠林, 张凤, 等.低温退火磷吸杂工艺对低少子寿命铸造多晶硅电性能的影响[J].物理学报, 2007, 62(11):110101-1~110101-7.
[6] 潘淼, 郑兰花, 武智平, 等.UMG多晶硅片的少子寿命[J].太阳能学报, 2013, 34(1):45-49.
[7] 杨佳, 杨利利, 武建针.对少子寿命提升的扩散工艺优化[J].太阳能学报, 2013(17):43-45.
[8] ROHINI R, MALLIKARJUN J.Six Sigma:improving the quality of operation theatre[J].Procedia-social and behavioral sciences, 2011(25):273-280.
[9] DYAH Diwasasri Ratnaningtyas, KRIDANTO Surendro.information quality improvement model on hospital information system using Six Sigma[J].Procedia Technology, 2013(9):1166-1172.
[10] HAHN GJ, D, STANARD CH.Statistical tools for Six Sigma[J].Quality Progress, 2001, 34(9):78-82.
[11] RONALD Ds.Six Sigma improves both statistical training and process[J].Quality Progress, 2000, 33(6):68-72.
[12] 孙梅.六西格玛质量管理在汽车马达装配中的应用[J].农机使用与维护, 2015, 11(18):29-30.
[13] 李易宁.六西格玛在图书馆质量管理中应用的可行性研究[J].情报科学, 2011, 4(2):520-523.
[14] 李凤, 马忠权, 孟夏杰, 等.表面钝化对少子寿命、铁-硼对浓度和复合中心浓度的影响[J].中国科学, 2010, 55(2):188-193.
[15] 陈玉武, 郝秋艳, 刘彩池.快速热处理工艺下金属杂质对铸造多晶硅少子寿命的影响[J].太阳能学报, 2009, 30(5):611-614.

面向绿色能源产品的多晶硅生产过程少子寿命提升研究

Improving study on minority carrier lifetime of polycrystalline silicon oriented to green energy production in manufacturing process

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