焦祥祎,男,职称:讲师
出生年月:1994年5月
电话:xxx
邮箱:jiaoxiangyi@mail.neu.edu.cn
1、教育学习经历:
2017.09-2022.06,清华大学,材料加工工程,博士
2、研究工作经历:
2022.06-今,太阳成集团tyc122cc,讲师
3、主要研究方向:
(1)压铸高强韧铝合金设计
(2)高强高导铜合金研发
4、主要科研成果:
[1]X.Y. Jiao, P.Y. Wang, Y.X. Liu, J.J. Jiang, W.N. Liu, A.X. Wan, L.J. Shi, C.G. Wang, S.M. Xiong. Effect of shot speeds on the microstructural framework and abnormal eutectic bands in a high pressure die casting hypoeutectic AlSi10MnMg alloy[J]. Journal of Materials Processing Technology, 2024, 326:118312.
[2]X.Y. Jiao, P.Y. Wang, Y.X. Liu, W.N. Liu, A.X. Wan, L.J. Shi, C.G. Wang, S.M. Xiong. The characterization of porosity and externally solidified crystals in a high pressure die casting hypoeutectic Al-Si alloy using a newly developed ceramic shot sleeve[J].Materials Letters, 2024, 360:136045.
[3]X.Y. Jiao, P.Y. Wang, Y.X. Liu, J. Wang, W.N. Liu, A.X. Wan, L.J. Shi, C.G. Wang, S.M. Xiong. Fracture behavior of a high pressure die casting AlSi10MnMg alloy with varied porosity levels[J]. Journal of Materials Research and Technology, 2023, 25:1129-1140.
[4]焦祥祎, 王鹏越, 刘亦贤, 石利军, 王成刚, 熊守美. 新型压铸浇道设计对预结晶组织和孔隙率的影响[J].材料与冶金学报, 2023, 22(05):500-504.
[5]X.Y. Jiao, W. Zhang, Y.X. Liu, J. Wang, W.N. Liu, A.X. Wan, Y.Y. Hu, G.D. Tong, S.M. Xiong. The characterization of porosity and its relationship with externally solidified crystal in a high-pressure die-cast AlSi10MnMg alloy via a laboratory CT technique[J]. Materials Letters, 2023, 335:133807.
[6] X.Y. Jiao, Y.X. Liu, J. Wang, W.N. Liu, A.X. Wan, Stuart Wiesner, S.M. Xiong. The microstructure characteristics and fracture behavior of the polyhedral primary iron-rich phase and plate-shaped eutectic iron-rich phase in a high-pressure die-cast AlSi10MnMg alloy[J]. Journal of Materials Science & Technology, 2023, 140: 201-209.
[7]X.Y. Jiao, Y.F. Zhang, J. Wang, Harood Nishat, Y.X. Liu, W.N. Liu, H.X. Chen, S.M. Xiong. Characterization of externally solidified crystals in a high-pressure die-cast AlSi10MnMg alloy and their effect on porosities and mechanical properties[J]. Journal of Materials Processing Technology, 2021, 298:117299.
[8]X.Y. Jiao, C.F. Liu, Z.P. Guo, Harood Nishat, G.D. Tong, S.L. Ma, Y. Bi, Y.F. Zhang, Stuart Wiesner, S.M. Xiong. On the characterization of primary iron-rich phase in a high-pressure die-cast hypoeutectic Al-Si alloy[J]. Journal of Alloys and Compounds, 2021, 862:158580.
[9]X.Y. Jiao, C.F. Liu, Z.P. Guo, G.D. Tong, S.L. Ma, Y. Bi, Y.F. Zhang, S.M. Xiong. The characterization of Fe-rich phases in a high-pressure die cast hypoeutectic aluminum-silicon alloy[J]. Journal of Materials Science & Technology, 2020, 51:54-62.
[10]X.Y. Jiao, C.F. Liu, J. Wang, Z.P. Guo, J.Y. Wang, Z.M. Wang, J.M. Gao, S.M. Xiong. On the characterization of microstructure and fracture in a high-pressure die-casting Al-10wt%Si alloy[J]. Progress in Natural Science: Materials International, 2020, 30:221-228.
[11]X.Y. Jiao, C.F. Liu, J. Wang, Z.P. Guo, J.Y. Wang, Z.M. Wang, J.M. Gao, S.M. Xiong. Effect of Ca addition on solidification microstructure of hypoeutectic Al-Si casting alloys[J]. China foundry, 2019, 16:153-160.
[12]X.Y. Jiao, J. Wang, C.F. Liu, Z. Guo, J.Y. Wang, Z.M. Wang, J.M. Gao, S.M. Xiong. Influence of slow-shot speed on PSPs and porosity of AlSi17Cu2.5 alloy during high pressure die casting. Journal of Materials Processing Technology, 2019, 268:63-69.
[13]X.Y. Jiao, J. Wang, C.F. Liu, Z.P. Guo, G.D. Tong, S.L. Ma, Y. Bi, Y.F. Zhang, S.M. Xiong.Characterization of high-pressure die-cast hypereutectic Al-Si alloys based on microstructural distribution and fracture morphology. Journal of Materials Science & Technology, 2019, 35(6):1099-1107.
5、承担项目情况:
中央高校基本科研业务费 2023-2025
《China Foundry》(《中国铸造》英文版)青年编委
