张乔

【来源: | 发布日期:2023-02-25 】



基本情况:

姓 名:张乔

职称职务:副教授、硕士生导师、成型系副主任

出生年月:1987年8月

学位:工学博士

毕业院校:永利集团

E–m ail:zhangqiao@xaut.edu.cn

学习与工作情况:

2021.01至今:77779193永利集团,副教授

2017.12至2020.12:77779193永利集团,讲师

2013.04至2017.11:77779193永利集团材料加工工程专业,博士

2010.09至2013.04:77779193永利集团材料加工工程专业,硕士

2006.09至2010.07:77779193永利集团材料成型及控制工程专业,本科

研究方向

1.高压电触头材料

2.难熔金属及粉末冶金

3.金属基复合材料

基金项目

1.国家自然科学基金面上项目(52274365),2023.01-2026.12,主持

2.国家自然科学基金青年项目(51801151),2019.01-2021.12,主持

3.中国博士后科学基金面上项目(2022M711732),2022.06-2023.09主持

4.陕西省重点研发计划重点产业创新链项目(2019ZDLGY05-07),2019.08-2022.07,主持

5.陕西省教育厅重点实验室项目(20JS094),2020.01-2022.12,主持

6. 企业委托课题3项(高压电触头材料研制),主持

7.国家自然科学基金重点项目(51834009),2019.1-2023.12,参与

8.国家自然科学基金联合基金重点项目(U1866203),2019.01-2022.12,参与

代表性论文

[1]Qiao Zhang, Xudong Hu, Zheng Chen, Yi Ding, Meijin Gao, Hua Xu, Shuhua Liang. Preparation and characterization of W@WCx composite powder by oxidation-vacuum carbonization process.Vacuum, 2022, 203: 111227.

[2]Qiao Zhang, Baojiang Chen, Zheng Chen, Zhixiang Zhu, Xudong Hu, Yi Ding, Shuhua Liang. Microstructure and properties of W-Cu composites reinforced by in-situ generated WC.International Journal of Refractory Metals & Hard Materials, 2021, 99: 105585.

[3]Qiao Zhang,Yu Cheng,Baojiang Chen,Shuhua Liang, Longchao Zhuo. Microstructure and propertiesof W-25wt% Cu compositesreinforced with tungsten carbide produced by an in situ reaction.Vacuum,2020,177:109423.

[4]Qiao Zhang, Shuhua Liang, Longchao Zhuo. Microstructure and propertiesof ultrafine-grained W-25wt.%Cu compositesdoped with CNTs.Journal of Materials Research and Technology,2019,8(1): 1486-1496.

[5]Qiao Zhang,Baojiang Chen, Boxin Zhao,Shuhua Liang, Longchao Zhuo. Microstructure and propertiesof W-30wt.%Cu compositesreinforced withWC particles prepared by vapor deposition carbonization.JOM-The Journal of The Minerals, Metals & Materials Society,2019,71(8): 2541-2548.

[6]Qiao Zhang, Shuhua Liang, Longchao Zhuo. Fabrication and properties of the W-30wt%Cu gradient composite with W@WCcore-shell structure.Journal ofAlloys andCompounds, 2017,708:796-803.

[7]Qiao Zhang, Shuhua Liang, Longchao Zhuo. Ultrafine-grained W-25 wt.% Cu composite with superior high-temperature characteristic.Materials Science and Technology, 2017, 33(17): 2071-2077.

[8]Qiao Zhang, Shuhua Liang, Baoqiang Hou, Longchao Zhuo.The effect of submicron-sized initial tungsten powders on microstructure and properties of infiltrated W-25 wt%Cu alloys.International Journal of Refractory Metals & Hard Materials, 2016, 59: 87-92.

[9]Qiao Zhang, Shuhua Liang,Xiaohong Yang, Zhibing Li, Yuchun Li, Youpeng Zhang.Failure analysis ofCuW/CuCrZrcontact materials in capacitor bank switch.EngineeringFailure Analysis, 2016, 62: 156-163.

[10]张乔,杨晓红,刘北阳,张振乾,李心一,梁淑华.特高压系统用电容器组开关弧触头失效分析.高压电器, 2016, 52(7): 27-32.

[11]Qiao Zhang, Shuhua Liang, Juntao Zou,Qing Yang. Interfacial microstructure of CuCr/1Cr18Ni9Ti bi-metal materials and its effect on bonding strength.SCIENCE CHINA-Technological Sciences, 2015, 58(5): 825-831.

[12]Qiao Zhang, Shuhua Liang, Chen Zhang, Juntao Zou. Influence of Annealing Time on Microstructure of Ni-W Alloys.Materials Science Forum, 2013, 747-748: 613-618.

授权发明专利

[1] 原位自生WC强化WCu双梯度复合材料的制备方法,ZL202010807401.3

[2] 一种原位自生WC强化WCu动弧触头表层的制备方法, ZL202010806656.8

[3] 一种碳纳米管增强钨铜复合材料的制备方法,ZL201710294314.0

[4]一种铜铬合金与不锈钢的连接方法,ZL201310638247.1

[5]一种短流程制备沉淀强化铜铬合金的方法,ZL201410064150.9

[6]一种细晶铜铬合金的制备方法,ZL201410064340.0

[7]一种铜钨假合金与不锈钢异型件的液固连接方法,ZL201410483907.8

[8]一种CuWC-CuCr整体触头的制备方法,ZL201510096414.3

[9]一种纤维与颗粒混杂结构铜钨复合材料的制备方法,ZL201510390722.7

[10]一种原位反应制备WC/W复合粉末的方法,ZL201610124789.0

[11]一种原位自生梯度WC强化CuW复合材料的制备方法,ZL201610124790.3

[12]一种W纤维表面化学沉积形貌可控镍层的方法,ZL201610488700.9

[13]一种合金钢/铜合金整体材料的制备方法,ZL201210343997.1

[14]一种铜铬合金与不锈钢的连接方法, ZL201710849349.6

[15]一种气相碳化法原位反应制备W/WC复合粉末的方法, ZL201710853077.7

[16]一种铝青铜与不锈钢的低温连接方法, ZL201710849354.7