王丙旭 特聘副教授，博士研究生，硕导，2018年12月毕业于奥克兰大学，2019年入职浙江理工大学；浙江省新材料产业智库专家，美国润滑工程师协会（STLE）会员，美国汽车工程师协会（SAE）会员；主持科研项目10余项，教改项目3项；以第一/通讯作者发表SCI期刊论文30余篇；授权发明专利10余件；担任《Chinese Journal of Mechanical Engineering》《热加工工艺》和《电焊机》期刊青年编委，JMR&T, Wear, Materials, Advanced Materials Research, Tribology Transactions, International of Metalcasting等期刊审稿人。

● 钢铁材料组织调控及强韧化

● 金属热处理

● 耐磨钢铁材料

● 材料成型数值模拟

● 纳米润滑油/脂

1. 2022年浙江机械工业科学技术奖-二等奖, 2/9, 2022

2. “纺织之光”2021年度中国纺织工业联合会纺织高等教育教学成果奖, 3/8, 2021

3. 美国汽车工业协会-合作研究奖(Research Partner Award), 1/5, 2018

2.浙江理工大学嵊州创新研究院成果培育博士入企类项目，安全气囊用高强韧无缝钢管生产工艺研发，2023/05-2024/04，在研，主持

3.教育部“春晖计计划”合作科研项目，含碳化物等温淬火球墨铸铁（CADI）的纳米颗粒强韧化技术基础研究，2023/05-2025/04，在研，主持

4.浙江省教育厅科研项目，双相纳米颗粒增强蠕墨铸铁的组织构型设计和强韧化机制，2020/10-2022/10，已结题，主持

5.省重点建设高校优势特色学科-重大/重点成果培育计划项目，颗粒增强铸铁的组织构型演化及强韧化机制，2020/06-2021/12，已结题，主持

6.省重点建设高校优势特色学科-高水平科研平台条件建设计划项目，多功能摩擦学实验平台建设，2019/06-2020/12，已结题，主持

7.企业横向项目，纳米润滑油减摩抗磨分子动力学模拟与试验研究，2021/04-2021/12，已结题，主持

8.企业横向项目，机笼散热器热仿真分析及结构优化，2021/06-2021/12，在研，主持

9.企业横向项目，接触面动静摩擦系数智能测量装置设计，2022/11-2023/12，在研，主持

10.企业横向项目，基于Simufact Welding的电加热管折弯成型过程仿真模拟分析，2023/12-2024/5，在研，主持

1.企业横向项目，轻量化工业机器人关节模组及本体设计-新型高性能合金材料在工业机器人臂上的应用技术研究，2020/07-2021/12，在研，参与(2/8)

12.浙江省自然科学基金国际合作项目，基于多层摩擦堆焊的铝/钢板材对接焊接技术研究，2021/01-2023/12，在研，参与(2/8)

1. Y. Zhang, Bingxu Wang*, F. Qiu, et al. Dry Sliding Wear Properties of Annealed Carbon Steels Matrix Composites by Nano-Sized TiC-TiB₂Particles. Advanced Engineering Materials. 2023.

2. Y. Zhang, Bingxu Wang*, B. Dong, et al. Microstructure and Wear Resistance of Gray Cast Iron Synergistically Manipulated by Nano-Sized TiC-TiB₂Ceramic Particles. Tribology Letters. 2023, 71(3): 84.

3. Y. Zhang, Bingxu Wang*, F. Qiu, et al. Superior Wear Resistance of Dual-Phased TiC-TiB₂Ceramic Nanoparticles Reinforced Carbon Steels. Journal of Materials Research and Technology. 2023, 24: 653-662.

4. W. Cui, Bingxu Wang*, F. Qiu*, et al. Microstructural Configuration and Impact Toughness of Graphite Ductile Iron Reinforced by Trace Amount of TiC-TiB₂Nanoparticles. Journal of Materials Engineering and Performance. 2022, 31; 4575-4582.

5. Bingxu Wang, Y. Zhang, F. Qiu*, et al. Synergistic Optimization in Microstructure and Mechanical Properties of Low Carbon Steel via Trace Amount of Nano-Sized TiC-TiB₂. Materials Characterization. 2022, 190; 112060.

6. Bingxu Wang, F. Qiu*, L. Chen, et al. Microstructure and Shearing Strength of Stainless Steel/Low Carbon Steel Joints Produced by Resistance Spot Welding. Journal of Materials Research and Technology. 2022, 20; 2668-2679.

7. Bingxu Wang, F. Qiu*, Gary C. Barber, et al. Role of Nano-sized Materials as Lubricant Additives in Friction and Wear Reduction: A Review. Wear. 2022. 490-491(11); 204206.

8. L. Chen, Y. Zhang, X. Xue, Bingxu Wang*, et al. Investigation on Shearing Strength of Resistance Spot-Welded Joints of Dissimilar Steel Plates with Varying Welding Current and Time. Journal of Materials Research and Technology. 2022, 16; 1021-1028.

9. Bingxu Wang, Y. Zhang, F. Qiu*, et al. Microstructure Refinement and Strengthening-Toughening Mechanisms of Gray Cast Irons Reinforced by In-Situ Nano-Sized TiB₂-TiC/Al Master Alloy. Advanced Engineering Materials. 2021; 202100731.

10. Bingxu Wang*, F. Qiu, W. Cui, et al. Microstructure and Tensile Properties of Graphite Ductile Iron Improved by Minor Amount of Dual-Phased TiC-TiB₂Nanoparticles. Advanced Engineering Materials. 2021; 2100246.

11. Bingxu Wang*, Y. Zhang, F. Qiu, et al. Simultaneously Enhanced Hardness and Toughness of Normalized Graphite Ductile Irons by TiC-TiB2 Nanoparticles. Materials Letters. 2021, 291: 129597.

12. W. Cui, Bingxu Wang*, G. C. Barber, et al. Experimental Evaluations on Tribological Performance of Oil-Based WS₂Nanofluid Applied on Steel/Brass Friction Pairs. Applied Physics A. 2021, 127: 222.

13. Bingxu Wang*, Y. Pan, Y. Liu, et al. Effects of Quench-Tempering and Laser Hardening Treatment on Wear Resistance of Gray Cast Iron. Journal of Materials Research and Technology. 2020, 9(4): 8163-8171.

14. Y. Pan, Bingxu Wang*, G. C. Barber. Investigation on Tensile Properties of Austempered SAE52100 Steel. Metallurgical and Materials Transactions A. 2020, 51; 1593-1601.

15. Bingxu Wang, F. Qiu*, G. C. Barber, et al. Wang. Microstructure, Wear Behavior and Surface Hardening of Austempered Ductile Iron. Journal of Materials Research and Technology. 2020, 9(5); 9838-9855.

16. Bingxu Wang*, X. Han, G. Barber, et al. Wear Behavior of Austempered and Quenched and Tempered Gray Cast Irons under Similar Hardness. Metals. 2019, 9(12); 1329.

17. Bingxu Wang*, G. C. Barber, C. Tao, et al. Tribological Performance of Austempered and Tempered Ductile Iron. Metallurgical and Materials Transactions B. 2018, 49; 2261-2269.

18. Bingxu Wang*, M. He, G. C. Barber, et al. Rolling Contact Fatigue Resistance of Austempered Ductile Iron Processed at Various Austempering Holding Times. Wear. 2017, 398-399; 41-46.

1. 利用铝基中间合金制备纳米颗粒增强球墨铸铁的方法专利号：202110346068.5

2. 一种高接触疲劳抗性奥贝球铁的制备方法、应用专利号：202110744831.X

3. 一种智能化辅助阅读装置专利号：201922249551.2

4. 一种便于阅读的书籍加持机构专利号：201922248206.7

5. 一种座椅式助洗装置专利号：202021816149.4

6. 一种可同时夹持矩形和圆形试件的摩擦磨损试验夹具专利号：202121006518.8

7. 一种基于齿轮单向回转运动的开合机构专利号：202121512032.1

8. 一种连杆式拉伸试验机夹具专利号：202121526008.3

9. 一种海滩垃圾筛分运输装置专利号：20220859987.2

10. 一种基于液压驱动的搬运助力外骨骼机器人专利号：202221368270.4

● 通讯地址：杭州市下沙高教园区2号大街928号浙江理工大学15号楼509室

● Email: bingxuwang@zstu.edu.cn