承担的主要科研项目: [1] 高强高塑性应变比双相钢γ织构增强机理及物理冶金协调控制,国家自然科学基金面上项目(51774006) [2] 基于传统连退工艺高强塑Q&P钢多元增塑机制及组织调控技术,国家自然科学基金钢铁联合基金(U1860105) [3] Cu合金化深冲双相钢组织织构演变机理及强塑协调控制,安徽省自然科学基金面上项目(1708085ME116) [4] 耐Cl-环境用高强度耐蚀钢筋的强韧化机理与腐蚀行为研究,安徽省高校自科重点项目(KJ2016A091) [5] 液化天然气储罐建设专用低温钢筋研制,安徽省科技攻关重点项目(1201a0201005) [6] 高寒地区油气结构用热轧H型钢研制,安徽省科技攻关项目(1501021003) [7] 重载列车用高强度高耐候先进结构钢材料及制造技术研究,安徽省重大专项(15czz02036) [8] 1500~2000MPa级超高强韧新型镀层汽车用钢关键制造技术,安徽省重点研发计划(202304a05020026) [9] 800MPa级中Mn-TRIP钢与980MPa级Q&P钢的研究与开发,马鞍山钢铁股份有限公司 [10] 基于常规连退线含铌1000MPa级汽车用钢开发与应用,中信金属宁波能源有限公司 [11] 600MPa级高强度钢筋的研究与开发,马鞍山钢铁股份有限公司 [12] Ni6LNG带材板形缺陷机理分析及控制技术研究,宝钢特钢 [13] 优质棒材高精度柔性轧制技术开发,马鞍山钢铁股份有限公司 [14] 液压油缸焊管用钢产品开发与液压研究,中信金属宁波能源有限公司 代表性论文: [1] Hongbo Pan, Shiwei Li, Jing Ding, Weiming Liu, Yanan Fu, Xiaohui Shen*, Hailian Wei*, Huiting Wang, Liang Yu, Qiang Fang. Characteristic Flow Behavior and Processing Map of a Novel Lean Si Spring Steel for Automotive Stabilizer Bars. Metals 2023, 13, 44. [2] 方超, 吴秋云, 潘红波, 丁敬, 于良, 方强. Nb元素及退火温度对双相钢组织性能的影响. 材料热处理学报. 2023,44(03) [3] Hailian Wei, Xiaoju Deng, Hongwei Zhou, Hongbo Pan*. A Comparative Study on Hot Deformation Behaviors of Niobium Microalloyed Low-Carbon and Medium-Carbon Steels by Physical Constitutive Analysis. steel research int. 2022, 93, 2100784. [4] 魏海莲, 邓笑举, 潘红波, 王永强, 李维火. 基于蠕变理论的钒和铌微合金化中碳钢的物理本构方程. 塑性工程学报. 2022,29(09). [5] Hongbo Pan, Weiming Liu, Huiting Wang, Yonggang Liu, Yaqiang Tian, Ke Chen, Xiaohui Shen*, Hua Zhan, Xiangyang Mao, Yangyang Xiao, D.Y. Li. Understanding crystallographic orientation, microstructure and mechanical properties dependent interaction between recrystallization and phase transformation of a Fe-Al-Mn-Mo-C dual-phase steel. Journal of materials research and technology, 2021,15:6190-6203. [6] Yunqing Tang, Hongbo Pan, D. Y. Li. Contribution of cold-work to the wear resistance of materials and its limitation – A study combining molecular dynamics modeling and experimental investigation. Wear 476 (2021) 203642. [7] 王文芳, 潘红波, 赵淮北, 崔江涛, 韩爱侠, 汪杨. 合金元素对热轧中锰钢组织及力学性能的影响. 材料热处理学报. 2021,42(04). [8] Hongbo Pan, Xiaohui Shen*, Dongyang Li*, Yonggang Liu, Jinghua Cao, Yaqiang Tian, Hua Zhan, Huiting Wang, Zhigang Wang, Yangyang Xiao. Effect of Annealing Process on Microstructure, Texture, and Mechanical Properties of a Fe-Si-Cr-Mo-C Deep Drawing Dual-Phase Steel. Crystals. 2020, 10, 777. [9] Bin Fu, Chenghao Pei, Hongbo Pan*, Yanhui Guo*, Liming Fu, Aidang Shan. Hall-Petch relationship of interstitial-free steel with a wide grain size range processed by asymmetric rolling and subsequent annealing. Mater. Res. Express 7 (2020) 116516. [10] Qiang Duan, Bin Fu*, Hongbo Pan*, Jun Yan. Influence of Inclusion Morphology on Impact Fracture Behavior in High-Strength Pipeline Steel. Trans Indian Inst Met, (2020) 73(7):1899–1907. [11] Li, D. Y*., Pan Hongbo. A wearing energy model. Journal of Applied Physics 2020,128(19):195105. [12] 曹京华,潘红波*,章 静,张腾飞,李旭冬,刘伟明. Nb-Ti微碳深冲双相钢的连续冷却转变规律. 钢铁研究学报,2020,32(4):329-334. [13] 周刘涛,潘红波*,潘 烁,吴结文. 退火工艺对0.025C-0.326Mn钢组织、织构和力学性能的影响. 钢铁,2020,55(1):93-100. [14] 张腾飞,潘红波*,沈晓辉,刘海亮,刘伟明,闫 军. 退火工艺对Cu-Ni深冲DP钢组织与性能的影响. 钢铁,2020,55(10):75-82. [15] Hongbo Pan*, Jinghua Cao, Bin Fu, Weiming Liu, Xiaohui Shen, Jun Yan, Yongjuan Dai, Yong Wan, Huiting Wang. An investigation on microstructure evolution and mechanical properties of cryogenic steel rebars under different cooling conditions. Mater. Res. Express 6 (2019) 106592. [16] Hongbo Pan*, Yong Wan, Huiting Wang, Xiaohui Shen, Bin Fu*, Dongyang Li, Yongjuan Dai, Jun Yan. An Investigation of Friction Coefficient on Microstructure and Texture Evolution of Interstitial Free Steel during Warm Rolling and Subsequent Annealing. Crystals. 2019, 9, 565 [17] Qiang Duan, Hongbo Pan*, Bin Fu, Jun Yan. An Investigation on the Strengthening Mechanism Based on Grain-Boundary Misorientation of High-Strength Pipeline Steel. steel research int. 2019, 90, 1900317. [18] Hong-bo Pan*,Meng-jiao Zhang,Wei-ming Liu,Jun Yan,Hui-ting Wang,Chang-sheng Xie,Zhan Guo. Effects of micro-alloying and production process on precipitation behaviors and mechanical properties of HRB600. Journal of Iron and Steel Research,International 24 (2017) 536-543. [19] 潘红波, 汪杨, 阎军, 谢常胜, 朱国辉. Nb含量及工艺对HRB600钢筋组织与性能的影响. 建筑材料学报,2017(20)3:392-398. [20] 潘红波*,周刘涛,张 建,温永红,闫 军,吴保桥. 北极海洋平台用Q355E热轧 H型钢连续冷却转变规律. 钢铁研究学报,2017,29(8):660-666. 授权发明专利与标准: [1] 潘红波,沈晓辉,曹京华,刘永刚,潘烁,王会廷,詹华,闫军,肖洋洋,刘伟明,章静,曹杰. 一种800MPa级高强塑积Q&P钢板及其制备方法. ZL201910423065.X. [2] 潘红波,魏海莲,沈晓辉,闫军,史娜,刘永刚,王会廷,詹华,肖洋洋,章静,曹杰,刘伟明. 强塑积大于30GPa%的热轧高强中锰钢的制备方法. ZL201910423071.5. [3] 潘红波,曹京华,沈晓辉,闫军,史娜,王会廷,李旭冬,章静,曹杰,刘伟明,温永红. 一种980MPa级低屈强比冷轧中锰钢的制备方法. ZL201910423314.5. [4] 潘红波,闫军,曹京华,沈晓辉,周刘涛,张腾飞,王会廷,章静,曹杰,刘伟明,温永红,吴结文. 一种Cu合金化深冲双相钢板及其制备方法. ZL201910423329.1. [5] 潘红波,沈晓辉,闫军,刘永刚,王会廷,詹华,肖洋洋,章静,曹杰,刘伟明. 一种焊接性能优异的高强塑积Q&P钢板及其制备方法. ZL201910462624.8. [6] 潘红波,曹京华,沈晓辉,史娜,李旭冬,张腾飞,王会廷,闫军,章静,曹杰. 500MPa级高加工硬化率热镀锌双相钢板及其制备方法. ZL201910462743.3. [7] 潘红波,刘永刚,张建,张建平,杨兴亮,詹华,舒宏富,汪建威,胡学文,谷海容,徐祥合,张翠. 一种钢板及其制备方法. ZL201410142907.1. [8] 潘红波,杨兴亮,詹华,刘永刚,舒宏富,杨少华,毛鸣,张翠. 抗拉强度400MPa级高强度碳锰结构钢的制造方法. ZL201310439991.9. [9] 潘红波,阎军,章静,曹杰,沈晓辉,王会廷. 一种饼形晶粒深冲双相钢板及其制备方法. ZL201310413498.X. [10] 潘红波,阎军,章静,沈晓辉,曹杰, 王会廷. 屈服强度900MPa级热轧板带钢及其制备方法. ZL201310488272.6. [11] 潘红波,刘永刚,杨兴亮,詹华,张建平,张建,徐祥合,张军,汪建威, 谷海容,陈继林,李月兰. 一种抗拉强度450MPa级汽车用冷轧双相钢钢板及其制备方法. ZL201210277421.X. [12] 行业标准:YB∕T 4844-2020 家电用连续热镀锌钢板及钢带 科研获奖: [1] 高性能热轧耐蚀钢制造关键技术研究及产业化应用,安徽省科技进步一等奖. [2] 高寒地区结构用热轧H型钢关键制造技术研究与应用,中国冶金科技进步一等奖. [3] 液化天然气储罐建设工程专用低温钢筋的研制,安徽省科技进步三等奖. [4] 汽车轻量化用系列双相钢高效制造技术,安徽省科技进步三等奖. [5] 汽车高强度动力螺栓用线材关键工艺技术开发及应用,河北省冶金科技进步一等奖. [6] 高性能紧固件用钢的研发及产业化应用,河北省冶金科技进步一等奖. |