师资队伍

专职博士后

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吴明霞

 

 

姓名:吴明霞

职称:助理研究员

导师情况:

电话:

传真:

     邮箱:wumingxia@scu.edu.cn

招生方向:

教育背景及工作经历

教育背景

2014.09-2017.06:四川大学机械制造及其自动化专业博士

2015.09-2017.03:日本东北大学联合培养博士

 2012.09-2014.06:四川大学材料加工工程专业硕士

 2008.09-2012.06:武汉理工大学材料成型及控制工程专业学士


工作经历

2017.07-至     今:四川大学制造科学与工程学院助理研究员

2016.04-2017.03:日本东北大学原子分子材料科学高等研究機構研究助理

总体介绍
 

主要从事外场条件下提高零件疲劳寿命机制的研究、微型零件快速成形技术以及材料微观结构表征。以第一作者身份在Journal of Alloys and Compounds、Applied Surface Science、Ceramics International等期刊发表论文十余篇;参加了6次高水平国际学术会议并作小组报告。参与装备预研基金重点项目1项,国家自然科学基金2项;主持专职博士后研发基金1项。

开设课程
 

本科:《材料成型技术》、《压铸模具设计》

研究领域及在研项目
 

研究领域
1.   微制造及微成形过程机理研究
2.  多物理场耦合条件下(电场、磁场、力场等)的材料成形技术及性能调控


在研项目:
1. 基于Micro-FAST的陶瓷粉末微型零件致密化机理研究,15万元,2018/01-2019/12,主持;
2. 高压空气瓶热旋压成形工艺模拟研究,10万元,2020/03-2020/08,主持;

3. 精密模具的研发生产,10万元,2020/04-2021/03,主持;

4. 装备预研基金重点项目“钛合金微齿轮结构脉冲电流辅助塑性成形技术”,180万元,2018/01-2020/12,主研,负责:成形工艺设计和微观组织表征;

5. 国家自然科学基金“Micro-FAST的电热聚焦及其对粉末快速致密化的作用机制”,74.1万元万元,2017/01-2020/12,主研,负责:粉末快速致密化机理研究;

6. 国家自然科学基金“基于多尺度的Micro-FAST致密化进程中颗粒界面的演变机制研究”,74.1万元,2016/01-2019/12,主研,负责:界面结构演变分析。

授权专利
 
发表论文
 

1. M.X. Wu, Z. Chen, C.J. Huang, K.L. Huang, K. Jiang and J. Liu*. Graphene platelet reinforced copper composites for improved tribological and thermal properties. RSC Advances, 2019, 9: 39883-39892.

2. M.X. Wu, Y. Yang*, G. Yang, K.L. Huang, D.Q. Yin. Direct evidence for surface cleaning mechanism during field-activated sintering. Journal of Alloys and Compounds, 2019,784: 975-979.

3. L.B. Wang, Y. Yang, Y. Qin, G. Yang, M.X. Wu*. Self-repairing mechanism and surface characterization of compressor vanes lubricated with oil added with magnesium silicate hydroxide nanorods. Manufacturing Review, 2019,6.

4. L.B. Wang, Y. Yang, G. Yang, G.H. Shui, M.X. Wu*. Self-repairing and tribological behaviour of steel–steel friction pairs lubricated with an oil with magnesium silicate hydrosilicate as additive. Manufacturing Review, 2019,1.

5. Y.T. Chen, Y. Yang, G. Yang, L.B. Wang, M.X. Wu*. Fabrication of WC-TiC-Co Cemented Carbide at Different Heating Rate by Micro-FAST process. MATEC Web of Conferences, ICNFT2018. 2018, 190, 1006:1-4.

6. J. Liu, M.X. Wu, Y. Yang, G. Yang*, H.X. Yan, K. Jiang. Preparation and mechanical performance of graphene platelet reinforced titanium nanocomposites for high temperature applications. Journal of Alloys and Compounds, 2018,765,1111-1118.

7. M.X. Wu, Y. Yang, G. Yang*, D.Q. Yin*. Fabrication of TiO2 components by Fields Activated Sintering Technology (FAST). Ceramics International, 2017,43:8075-8080.

8. M.X. Wu, G. Yang, J. Liu, D.Q. Yin, Y. Yang*. Densification mechanism of copper micro-components prepared by the micro-forming fields activated sintering technology. Journal of Alloys and Compounds, 2017, 692: 434-439.

9. D.Q. Yin#, M.X. Wu#, W.L. Cen, H.P. Li, Y. Yang, H. Fang*. Short-range effect at the semi-coherent metal/its native oxide interface. Applied Surface Science, 2016, 378: 451-459.

10. D.Q. Yin, M.X. Wu, Y. Yang, W.L. Cen, H. Fang*. Chiral vectors-tunable electronic property of MoS2 nanotubes. Physica E: Low-dimensional Systems and Nanostructures, 2016, 83: 232-237.

11. M.X. Wu, G. Yang*, Y. Yang, D.Q. Yin. Effect of sintering temperature on the densification of Titanium gears during Micro-FAST. Rare Metal Materials and Engineering, 2015, 44(6): 1504-1508.

12. M.X. Wu, G. Yang*, Y. Yang, D.Q. Yin. Microstructure evolution and surface cleaning of Cu nanoparticles during micro-forming fields activated sintering technology//MATEC Web of Conferences. EDP Sciences, 2015, 21,10002:1-6.

13. M.X. Wu, G. Yang, Y. Yang, D.Q. Yin and Y. Zhou. Research on electrothermic focus effect during coupled multi-physical fields activated forming technology. Journal of Sichuan University (Engineering Science Edition). 46(S2):171-175, 2014.

14. F. Mu, M.X. Wu, Y. Yang, G. Yang, D. Q. Yin. Structure optimization and casting simulation of engine trestlebased on CAE technology. 2014 IEEE 18th International Conference on Computer Supported Cooperative Work in Densign(CSCWD 2014).

15. M.X. Wu, G. Yang, Y. Yang, D.Q. Yin and D.F. Yang. Effect of electro-heating impact on shrinkage densification of multi-physics fields coupling sintering.  Journal of Sichuan University (Engineering Science Edition).45(S1):154-157, 2013.

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