一、科研项目

1.浙江省自然科学基金探索项目，纳米颗粒对球墨铸铁液固相变和服役性能的协同调控规律及作用机理，2021/01-2023/12、10万元、在研、主持

2.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、1万元、在研、主持

3.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、3万元、在研、主持

4.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、3万元、在研、主持

5.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、10万元、在研、参与(2/8)

6.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、30万元、在研、参与(2/8)

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、1万元、已结题、主持

8.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、20万元、已结题、主持

9.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、40万元、已结题、主持

二、期刊论文

1.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. （SCI一区Top）

2.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. （SCI一区Top）

3.Bingxu Wang, F. Qiu, G. C. Barber, et al. Role of Nano-Sized Materials as Lubricant Additives in Friction and Wear Reduction: A Review. Wear. 2022, 490-491; 204206. （SCI一区Top）

4.Bingxu Wang, F. Qiu, W. Cui, et al. Microstructure and Tensile Properties of Graphite Ductile Iron Improved by Minor Amount of Dual-Phased TiC-TiB₂ Nanoparticles. Advanced Engineering Materials. 2021, 23(8); 2100246. 

5.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.

6.W. Cui, Bingxu Wang*, G. C. Barber, et al. Experimental Evaluations on Tribological Performance of Oil-Based WS₂ Nanofluid Applied on Steel/Brass Friction Pairs. Applied Physics A. 2021, 127: 222.

7.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.（SCI一区Top）

8.Bingxu Wang, G. C. Barber, F. Qiu*, et al. A Review: Phase Transformation and Wear Mechanisms of Single-Step and Dual-Step Austempered Ductile Irons. Journal of Materials Research and Technology. 2020, 9(1); 1054-1069. （SCI一区Top）

9.Y. Pan, Bingxu Wang*, G. C. Barber. Investigation on Tensile Properties of Austempered SAE52100 Steel. Metallurgical and Materials Transactions A. 2020, 51; 1593-1601.（SCI二区）

10.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.（SCI一区Top）

11.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.

12.X. Han, G. C. Barber, Bingxu Wang*, et al. Tribological Performance of Oil-Based ZnO and Diamond Nanofluids. Lubrication Science. 2019, 31(3); 73-84.

13.R. Wang, Bingxu Wang*, G. C. Barber, et al. Models of Prediction of Surface Roughness in a Face Milling Process Using Triangular Inserts. Lubricants. 2019, 7(1); 9. 

14.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.（SCI二区）

15.Bingxu Wang, G. C. Barber, C. Tao, et al. Characteristics of Tempering Response of Austempered Ductile Iron. Journal of Materials Research and Technology. 2018, 7(2); 198-202.（SCI一区Top）

16.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.（SCI一区Top）

17.Bingxu Wang, G. C. Barber, X. Sun, et al. Characteristics of the Transformation of Retained Austenite in Tempered Austempered Ductile Iron. Journal of Materials Engineering and Performance. 2017, 26; 2095-2101.

三、发明专利

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：ZL202110346068.5

2.一种高接触疲劳抗性奥贝球铁的制备方法、应用 专利号：ZL202110744831.X

3.一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：ZL202121006518.8

4.一种连杆式拉伸试验机夹具 专利号：ZL202121526008.3

5.一种基于齿轮单向回转运动的开合机构 专利号：ZL202121512032.1

6.一种基于液压驱动的搬运助力外骨骼机器人 专利号：ZL202221368270.4

7.一种用于智能搓洗助起洗澡椅的双动力助起装置 专利号：ZL202021688524.1

8.一种便于阅读的书籍加持机构 专利号：ZL201922248206.7

9.一种座椅式助洗装置 专利号：ZL202021816149.4

10.一种智能化辅助阅读装置 专利号：ZL201922249551.2

11.一种用于控制张拉整体结构变形的索杆伸缩机构 专利号：ZL202020222229.0

四、获奖情况

1.新能源汽配产品压铸及后处理生产线数字化研发，浙江省机械工业科学技术奖-二等奖，2/9，2022

2.新工科背景下聚焦创新实践能力培养的机械基础课程群教学模式重塑与实践，中国纺织工业联合会纺织高等教育教学成果奖-一等奖，3/8，2021