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在校生 教职工 考生及访客 校友 EN
师资队伍
首页-师资队伍-教工名录
 姓名:  王洪泽
 职称:  副教授
 博导/硕导:  博导
 所属二级机构:   特种材料研究所
 通讯地址:  上海市东川路800号 特种材料楼
 邮编:  200240
 E-mail:  hz.wang@sjtu.edu.cn
 联系电话:  
从事专业:

先进制造、智能制造、增材制造

(课题组长期招聘博后、博士和硕士研究生,尚有22年入学的博士/硕士名额,欢迎材料加工、材料科学、机械、力学等相关背景的同学联系。

学习与工作简历:

工作经历:

2019.10-  上海交通大学 大满贯老品牌 副教授

2018.05-2019.09 加拿大多伦多大学 大满贯老品牌 博士后(合作导师:Yu Zou)

2016.10-2018.04 日本大阪大学 接合科学研究所 特别研究员(合作导师:Yosuke Kawahito, Mashahito Tsukamoto)

学习经历:

2011.09-2016.09 上海交通大学 机械与动力工程学院 博士(导师:来新民,张延松)

2007.09-2011.07 华中科技大学 大满贯老品牌 学士
研究方向一

激光制造、增材制造

研究方向二 同步辐射原位观测
研究情况

面向航空航天、核、船舶、汽车等行业的应用需求,围绕“激光制造”这个“卡脖子”核心技术领域,主持国家自然科学基金面上项目、青年基金项目,上海市自然科学基金面上项目、上海市青年科技英才扬帆项目、上海交通大学新进教师科研启动基金项目、上海交大-瑞典皇家理工国际合作项目等多项国内外科研项目,先后参与了国家自然科学基金面上/重点、国家重点研发计划、日本文部科学省和加拿大研究基金会等项目。和日本大阪大学、日本海洋研究开发机构、德国柏林材料研究所、英国伦敦学院、瑞典皇家理工学院、加拿大多伦多大学等国际一流的大学或研究机构建立了稳定的合作关系。代表性的研究工作包括:

1. 开展激光制造过程多尺度、多物理场建模,揭示激光制造过程的能量吸收和材料演变成形机制;

2. 开展基于同步辐射成像技术的激光制造过程熔池和匙孔动态特征观测,揭示激光制造的熔池动态特征和缺陷演化机制;

3. 在以上机理研究的指导下,开发了首台250 W的蓝激光(450 nm)加工系统,显著提高了铝合金和铜等高反射率材料激光制造中的吸收率;开发了100 kW超大功率红外光纤激光焊接系统,首次实现了71mm厚钢板的单道次直接焊接,为新一代大型核电装置中超厚结构的焊接提供了解决方案。


代表性项目如下:

(1)国家自然科学基金委员会,面上项目,52075327,铜合金构件蓝激光粉末沉积增材制造成形机理研究,2021-01至2024-12,在研,主持

(2)国家自然科学基金委员会,青年项目,52004160,超薄电工钢叠片定子铁芯脉冲激光微点焊机理研究,2021-01至2023-12,在研,主持

(3)上海市科学技术委员会,扬帆计划,20YF1419200,纳米颗粒增强铝基复合材料蓝激光同轴送粉增材制造工艺机理研究,2020-07至2023-06,在研,主持

(4)上海市科学技术委员会,自然基金面上项目,20ZR1427500,铝基复合材料蓝激光选区熔化增材制造成形规律及质量调控,2020-07至2023-06,在研,主持

(5)安徽省淮北市科学技术局,重大科技专项,Z2020001,陶铝材料大型构件蓝激光粉末沉积增材制造成形机理及质量调控方法研究,2020-07至2022-09,在研,主持

(6)欧盟玛丽居里基金会,玛丽居里学者(Marie Skodowska Curie Individual Fellowships),Metal flow in laser additive manufacturing using x-ray imaging and machine learning,主持

(7)上海交通大学,上海交通大学-瑞典皇家理工国际合作项目,增材制造材料、工艺和结构,2020-04至2021-12,在研,主持

(8)上海交通大学,新进教师启动项目,增材制造与激光制造,2019-10至2022-12,在研,主持

讲授主要课程

《增材制造与智能制造》、《高能束成形原理、工艺和装备》


教学研究 指导本科生毕业设计、PRP项目
代表性论文、论著

以第一作者或通讯作者在IEEE Transactions on Industrial Electronics、Acta Materialia、Optics Letters等期刊发表SCI论文二十余篇。

JOURNAL PUBLICATIONS (* : 通讯作者;  # : 共同1作)

1.Kawakami, H. , Kuno, H. , Kawahito, Y. , Hongze Wang*. (2021). Hardness enhancement by molten metal flow in laser remelting with an ultra-thin additional element coating. Journal of Materials Processing Technology, 116888.

2.Wang, An, Hongze Wang*, Yi Wu, and Haowei Wang. "3D printing of aluminum alloys using laser powder deposition: a review." The International Journal of Advanced Manufacturing Technology (2021): 1-37.

3.Jia H, Sun H, Wang H*, Wu Y*, Haowei Wang. Scanning strategy in selective laser melting (SLM): a review[J]. The International Journal of Advanced Manufacturing Technology, 2021: 1-23.

4.Xia, C.; Hongze Wang*; Wu, Y.; Wang, H. Joining of the Laminated Electrical Steels in Motor Manufacturing: A Review. Materials 2020, 13, 4583

5.Chen Y, Wang H*, Wu Y*, et al. Predicting the Printability in Selective Laser Melting with a Supervised Machine Learning Method[J]. Materials, 2020, 13(22): 5063.

6.Liu, Z. #, Wang, H.# , Michel J.R Haché, Chu, X. , & Zou, Y.*. (2020). Prediction of heterogeneous microstructural evolution in cold-sprayed copper coatings using local zener-hollomon parameter and strain. Acta Materialia.

7.Zhiying Liu#, Hongze Wang#, M., Haché, E. Irissou, Y. Zou*, Formation of refined grains below 10 nm in size and nanoscale interlocking in the particle–particle interfacial regions of cold sprayed pure aluminum, Scripta Materialia, 2020, 177, pp. 96-100. Doi: 10.1016/j.scriptamat.2019.09.018

8.Hongze Wang, Yu Zou*, Microscale interaction between laser and metal powder in powder-bed additive manufacturing: Conduction mode versus keyhole mode, International Journal of Heat and Mass Transfer, 2019, 142, pp. 118473. doi: 10.1016/j.ijheatmasstransfer.2019.118473

9.Kawahito Yousuke, Hongze Wang*, In-situ Observation of Laser Manufacturing with X-ray Technique, Synchrotron Radiation News, 2019, 32.2, pp. 14-19. doi.org/10.1080/08940886.2019.1582283 (Invited by the guest editor)

10.Hongze Wang*, Yosuke Kawahito*, Yuya Nakashima, Kunio Shiokawa, Coupled effects of heating methods and rates on the measured non-isothermal austenization temperature of steel SUS420J1, ASME Manufacturing Science and Engineering, 2018, 140(6), pp. 061014(1-10). doi: 10.1115/1.4039115

11.Hongze Wang*, Yosuke Kawahito*, Ryouhei Yoshida, Yuya Nakashim, Kunio Shiokawa, A model to calculate the laser absorption property of actual surface, International Journal of Heat and Mass Transfer, 2018, 118, pp. 562-569. doi.org/10.1016/j.ijheatmasstransfer.2017.11.023

12.Hongze Wang*, Motoki Nakanishi, Kawahito Yousuke*, Dynamic balance of heat and mass in high power density laser welding, Optics Express, 2018, 26(5), pp. 6392-6399. doi.org/10.1364/OE.26.006392

13.Masanori Miyagi, Yousuke Kawahito, Hongze Wang*, Hiroshi Kawakami, Takahisa Shoubu. X-ray phase-contrast observation of solidification and hot crack propagation in laser spot welding of aluminum alloy, Optics Express, 2018, 26, pp. 22626-22636. doi.org/10.1364/OE.26.022626

14.Kawahito Yousuke*,#, Wang Hongze*,#, In-situ observation of gap filling in laser butt welding, Scripta Materialia, 2018, 154, pp. 73-77. doi.org/10.1016/j.scriptamat.2018.05.033

15.Masanori Miyagi, Hongze Wang*, Ryohei Yoshida, Yousuke Kawahito, Hiroshi Kawakami, Takahisa Shoubu, Effect of alloy element on characteristics of keyhole and molten pool in laser welding of aluminum alloys, Scientific Reports, 2018. doi.org/10.1038/s41598-018-31350-4

16.Hongze Wang*, Yousuke Kawahito*, Nishimoto Koji, A Laser Joining System for Titanium and Polyethylene Terephthalate Plastic Controlled by Multiple Signal Sources. IEEE Transaction on industrial electronics, 2018, 66(2), pp. 1255 - 1263. DOI: 10.1109/TIE.2018.2831190

17.Yousuke Kawahito, Hongze Wang*, Seiji Katayama, Daichi Sumimori, Ultra high power (100 kW) fiber laser welding of steel, Optics Letters, 2018, 43(19), pp. 4667-4670. Doi: 10.1364/OL.43.004667

18.Hongze Wang*, Yosuke Kawahito, Ryohei Yoshida, Yuya Nakashima, Kunio Shiokawa, Development of a high-power blue laser (445 nm) for material processing, Optics Letters, 2017, 42 (12), pp. 2251-2254. doi.org/10.1364/OL.42.002251

19.Hongze Wang*, Motoki Nakanishi, Yosuke Kawahito*, Effects of welding speed on absorption rate in partial and full penetration welding of stainless steel with high brightness and high power laser, Journal of Materials Processing Technology, 2017, 249, pp. 193-201. doi.org/10.1016/j.jmatprotec.2017.06.014

20.Hongze Wang, Yansong Zhang*, Modelling of eddy current loss of the welded electrical steel laminations. IEEE Transaction on industrial electronics, 2017, 64(4), pp. 2992- 3000. DOI: 10.1109/TIE.2016.2636203

21.Hongze Wang, Yansong Zhang*, Kunkun Chen, Modeling of Temperature Distribution in Laser Welding of Lapped Martensitic Steel M1500 and Softening Estimation, ASME Manufacturing Science and Engineering, 2016, 138 (11), pp. 111006(1-9). doi: 10.1115/1.4033391

22.Hongze Wang, Yansong Zhang*, Shuhui Li, Laser Welding of Laminated Electrical Steels. Journal of Materials Processing Technology, 2016, 230, pp. 99-108. doi.org/10.1016/j.jmatprotec.2015.11.018

23.Hongze Wang, Yansong Zhang*, Xinmin Lai, Effects of interfaces on heat transfer in laser welding of electrical steel laminations. International Journal of Heat and Mass Transfer, 2015, 90, pp. 665-677. doi.org/10.1016/j.ijheatmasstransfer.2015.07.027

24.Hongze Wang, Yansong Zhang*, Xinmin Lai, A model for the torsion strength of a laser-welded stator. Journal of Materials Processing Technology, 2015, 223, pp. 319-327. doi.org/10.1016/j.jmatprotec.2015.04.012

其它作者文章:

1.Ding, Han, Yakai Xiao, Zeyu Bian, Yi Wu, Huihui Yang, Hongze Wang, and Haowei Wang. "Design, microstructure and thermal stability of a novel heat-resistant Al-Fe-Ni alloy manufactured by selective laser melting." Journal of Alloys and Compounds (2021): 160949.

2.Xiao, Y. K., Z. Y. Bian, Y. Wu, G. Ji, Q. Lian, H. Z. Wang, Z. Chen, and H. W. Wang. "Simultaneously minimizing residual stress and enhancing strength of selective laser melted nano-TiB2 decorated Al alloy via post-uphill quenching and ageing." Materials Characterization (2021): 111242.

3.Yu, J. , Zhang, D. , Li, H. , Song, C. , & Wang, H. . (2020). Detection of internal holes in additive manufactured ti-6al-4v part using laser ultrasonic testing. Applied Sciences, 10(1), 365.

4.Yansong Zhang*, Hongze Wang, Kunkun Chen, Shuhui Li, Comparison of laser and TIG welding of laminated electrical steels. Journal of Materials Processing Technology, 2017, 247, pp. 55-63. doi.org/10.1016/j.jmatprotec.2017.04.010

5.Jingjing Yang, Huihui Yang, Hanchen Yu, Zemin Wang*, Hongze Wang, Xiaoyan Zeng, A novel approach to in-situ fabricate Ti-6Al-4V alloy with graded microstructure and property by selective laser melting, Materials Letters, 2018, 215, pp. 246-249. doi.org/10.1016/j.matlet.2017.12.098

6.Yong Xie, Ming Gao*, Fude Wang, Chen Zhang, Kangda Hao, Hongze Wang, Xiaoyan Zeng, Anisotropy of fatigue crack growth in wire arc additive manufactured Ti-6Al-4V. Materials Science and Engineering: A, 2018, 709, pp. 265-269. doi.org/10.1016/j.msea.2017.10.064

7.Kunkun Chen, Yansong Zhang*, Hongze Wang. Effect of acoustic softening on the thermal-mechanical process of ultrasonic welding. Ultrasonics, 2017, 75, pp. 9-21. doi.org/10.1016/j.ultras.2016.11.004

8.Kunkun Chen, Yansong Zhang, Hongze Wang. Study of plastic deformation and interface friction process for ultrasonic welding. Science and Technology of Welding and Joining, 2016, 22(3), pp. 208-216. doi.org/10.1080/13621718.2016.1218601

毕业博士生数 目前指导(含共同指导)在读博士生4名 指导在读硕士生2名,毕业硕士生1名(陈映言,院优硕提名,2021年) 指导3名本科生毕业设计(周恺伦、彭一鸣,20年;刘力文,21年)
毕业硕士生数
参加学术团体、任何职务

国际SCI期刊《Materials》的客座编辑、《机械工程导报》编委、先进焊接与连接专业委员会委员

教育部学位论文评审专家

Journal of Manufacturing Processs 优秀审稿人

担任IEEE Transactions on Industrial Electronics, Materials Design, International Journal of Heat and Mass Transfer等十几个期刊的审稿人


申请专利

中国发明专利:授权1项,公开8项

荣誉和奖励

欧盟玛丽•居里学者

上海市海外引进高层次人才

上海市扬帆青年学者

上海交通大学首届优秀博士论文奖(全校14篇)

 

CCTV机器人电视大赛全国总冠军(2011年)
其他 Researchgate: https://www.researchgate.net/profile/Hongze_Wang
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