姓名:高宾华
学位:工学博士
职称/职务:讲师
研究方向与领域:① 精密与超精密加工技术;② 精密与超精密加工工艺、③ 精密与超精密加工控制、④精密与超精密加工装备
主要教学科研成果:电化学清理磨削技术的主要发明人
1.主要课题:
[1]飞行器复合材料吸能结构破坏机理研究,国家自然科学基金青年项目,参与.
[2]大型光学镜面的高速高效超精密加工、检测技术与装备,科技部支撑计划项目,参与.
[3]MOX芯块干法磨削设备用外圆无心磨床、芯块粉尘处理装置、粉尘收集装置研制,横向项目,参与.
[4]KF7轴类件高精度螺纹磨削技术研究,横向项目,参与.
[5]台阶深小孔钻镗削加工优化技术研究,横向项目,参与.
[6]高温合金叶片榫齿磨削烧伤和裂纹产生机理与工艺优化监控研究,横向项目,参与.
2.学术论文:
[1]Binhua Gao, Yiru Ren, Hongyong Jiang, et al.Sensitivity analysis-based variable screening and reliability optimisation for composite fuselage frame crashworthiness design. International Journal of Crashworthiness 2019; 24: 380-388. (SCI, IF2.05)
[2]Binhua Gao, Tan Jin, Meina Qu,et al.Electrochemical cleaning grinding (ECCG) of aluminum alloy 6061 withelectroconductive resin-bonded diamond wheels. Journal of Manufacturing Processes 2020; 57: 806-816. (SCI, IF5.68)
[3] Binhua Gao, Wencheng Bao, Tan Jin,et al.Variation of wheel-work contact geometry and temperature responses: Thermal modeling of cup wheel grinding. International Journal of Mechanical Sciences 2021; 196: 106305. (SCI, IF6.77)
[4] Yiru Ren, Binhua Gao,Hongyong Jiang,et al. The crashworthiness prediction of 2D triaxially braided composite fuselage frame under transverse impact load.International Journal of Crashworthiness 2020; 25:421-429.(SCI, IF2.05)
[5] Yiru Ren, Hongyong Jiang, Binhua Gao, et al. A progressive intraply material deterioration and delamination based failure model for the crashworthiness of fabric composite corrugated beam: Parameter sensitivity analysis. Composites Part B: Engineering 2018;135:49-71.(SCI, IF11.32)
[6] Yiru Ren, Hongyong Jiang, Binhua Gao. Research on the progressive damage model and trigger geometry of composite waved beam to improve crashworthiness. Thin-Walled Structures 2017;119:531-543.(SCI, IF5.88)
[7] Hongyong Jiang, Yiru Ren,Binhua Gao, et al. Design of novel plug-type triggers for composite square tubes: enhancement of energy-absorption capacity and inducing failure mechanisms. International Journal of Mechanical Sciences 2017;131-132:113-136.(SCI, IF6.77)
[8]Hongyong Jiang, Yiru Ren, Binhua Gao, et al.Numerical investigation on links between the stacking sequence and energy absorption characteristics of fabric and unidirectional composite sinusoidal plate. Composite Structures 2017; 171: 382-402. (SCI, IF6.60)
[9] 高宾华, 何训, 王其荣等. 拟稳态条件下铝合金AA6061和钛合金TC4的电化学清理磨削.中国机械工程.
[10] 高宾华, 任毅如. 编织复合材料机身隔框的冲击动力学特性. 复合材料学报 2017; 34: 1780-1787.
[11] 高宾华, 保文成, 陈超群等.延塑性航空合金磨削砂轮粘附及粘附抑制技术的研究现状与展望.航空制造技术2021; 64: 53-71.
[12]Binhua Gao, Tan Jin, Meina Qu, et al.A new approach in grinding of highly plastic metal alloys. The 22nd International Symposium on Advances in Abrasive Technology, December 2019, Shenzhen, China.
3.发明专利和软件著作权:
[1] 金滩, 高宾华, 易军. 曲面成形磨削中磨削液对流换热系数测量方法及相应装置. 专利号: ZL201910116437.4
[2] 金滩, 高宾华, 尚振涛, 等. 一种延塑性金属零件的电化学清理磨削方法及系统. 专利号: ZL202010343984.9
[3]金滩, 高宾华, 谢桂芝, 等. 一种树脂结合剂超硬导电成形砂轮的修整方法及装置. 专利号:ZL 202110540282.4
[4]金滩, 高宾华, 何训, 等. 一种基于电化学原理的砂轮粘附率检测方法及系统.(发明专利)
[5] 高宾华,弥伟娜,金滩, 等.立轴平面磨削温度分析软件(软件著作权)
[6] 高宾华,弥伟娜,金滩, 等.立轴平面磨削几何学与运动学分析软件(软件著作权)
[7] 高宾华, 弥伟娜, 金滩, 等.立轴平面磨削力分析软件(软件著作权)
[8] 高宾华, 弥伟娜, 金滩, 等.端面铣削未变形切屑几何分析软件(软件著作权)