Ø 部分主持科研项目:
(1)国家自然基金面上项目,基于拘束度参量解耦的小试样预测断裂韧度研究,JZ2022GJMS0606, 2022~2026,主持
(2)安徽省科技重大专项,流体驱动智能管道内检测机器人关键技术研发及产业化,JZ2022AKKZ0003,2021~2024,主持(校内)
(3)中央高校基本科研业务应用培育项目,废钢冶炼用环保型蒸发冷却塔关键技术研究,JZ2020YYPY0106,2020~2021,主持
(4)中国石化管道储运有限公司,储罐安全监测大型外浮顶储罐抗风稳定性研究,2017-2018,企业委托,主持
(5)合肥通用机械研究院,大型列管式换热器流体诱导管束振动研究,2017-2019,企业委托,主持
(6)合肥鑫波焊接波纹管有限公司,波纹管产品及装备研发,2017-2018,企业委托,主持
(7)河北驹王专用汽车股份有限公司,移动罐车应力分析,2019-2020,企业委托,主持
(8)安徽铜峰电子股份有限公司,金属化膜电容器热模拟研究,2018-2019,企业委托,主持
(9)中国石化管道储运有限公司,仪九复线九江架空管廊管段应力分析,2019-2020,企业委托,主持
Ø 部分学术论文:
1. Jianhua, Pan*, Mengle Yin. Investigation on Beremin Parameters Based on the toughness scaling model[J]. Engineering Fracture Mechanics, 2021,247:107697.
2. Jianhua, Pan*, Shenglin Liang. A study on the buckling behavior of in-service large open-topped oil-storage tanks[J]. Structures, 2021, 29:211-224.
3.Zeng Chen, Jianhua, Pan*, et al. Estimation of fracture toughness of 16MnDR steel using Master Curve method and Charpy V-notch impact energy[J]. Theoretical and Applied Fracture Mechanics, 2018, 96:443-451.
4.Jianhua, Pan*, Zeng Chen, et al. A novel method to estimate the fracture toughness of pressure vessel ferritic steels in the ductile to brittle transition region using finite element analysis and Master Curve method[J]. International Journal of Pressure Vessels and Piping, 2019, 176: 103949 - 103949.
5.Jianhua, Pan*, Zeng Chen, et al. An experimental investigation on manifold failure and material deterioration[J]. International Journal of Pressure Vessels and Piping, 2018, 162.
6.Jianhua Pan*, Lun Gao. A novel method for defects marking and classifying in MFL inspection of pipeline. International Journal of Pressure Vessels and Piping, 2023,202:1-10.
7.Yu Ding, Jianhua Pan*. A new method for predicting reference temperature of ferritic steel using finite element analysis and master curve method. International Journal of Pressure Vessels and Piping, 2024,132:104493.
8.Jianhua Pan*, Chaoyang Song. Prediction of fracture toughness using small specimens based on machine learning[J]. Theoretical and Applied Fracture Mechanics, 2024, 96:443-451.
9.Jianhua Pan*, Yan Wang. Feasibility of the ((4未t, 蟽22c) criterion to predict fracture toughness of ferritic steel using specified specimen types. Journal of Applied Mechanics and Technical Physics, 2022, 63(2): 289-297.
10.Jianhua Pan, Yan Wang, Qiaoguo Wu*. An Improved Method for Calibration of Beremin Model Parameters. Mechanics of Solids, 2023, 58(3): 1-14.
11.Jianhua, Pan*, Mengle Yin. A Study on Fracture Toughness Based on a Modified Beremin Model[J]. Journal of Materials Engineering and Performance, 2021, 30(11).
12.Jianhua Pan*, Yu Ding. Estimation of Fracture Toughness with Small Specimens Based on TSM Model. Mechanics of Solids, 2024, 59(1): 521-536.
脴 閮ㄥ垎鎺堟潈鍙戞槑涓撳埄鍙婅蒋浠惰憲浣滄潈
1锛�涓�绉嶆柇瑁傞煣鎬ц浆鎹㈡ā鍨嬬殑寤虹珛鏂规硶, 2021-05-14, ZL202110527644.6
2锛�涓�绉嶅熀浜庢紡纾佷俊鍙风壒寰佺殑绠¢亾缂洪櫡閲忓寲鏂规硶, 2022-06-24, ZL202210729456.6
3锛�涓�绉嶇敤浜庤浆鐐夊共娉曢櫎灏樿捀鍙戝喎鍗村鐨勬俯搴︽帶鍒剁郴缁�, 2021-04-23, ZL2021104407500
4.一种用于塔器的调谐质量阻尼器, 2021-04-29, ZL2021104749813
5.一种改进的Beremin模型参量标定方法, 2021-05-08, ZL202110498784.5
6.一种塔器用阻尼器, 2021-09-13, ZL202111067948.5
7.一种管道检测器的最大旁通面积确定方法, 2022-04-18, ZL202210406385.6
8.一种用于天然气管道机器人的速度控制系统, 2022-06-27, ZL202210735626.1
9.一种管道检测器的速度和加速度控制方法, 2023-07-25, ZL202210741020.9
10.基于遗传算法的管道漏磁检测传感器初始提离值寻优方法, 2022-07-26, ZL2022108848403
11.油气管道缺陷漏磁检测信号标记分类与量化重构系统V1.0, 2023-06-06, 2023SR0919154
12.天然气管道内检测器(PIG)速度控制仿真优化系统V1.0, 2023-06-09, 2023SR0917796
13.BEREMIN模型参数标定软件V1.0, 2023-07-05, 2023SR1372092
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