主要从事金属塑性成形理论与先进成形方法研究,前期围绕铝合金与铜合金大塑性压缩变形回弹行为及模型、多芯集束复合铜基梯度纳米复材与高温超导线材成形与性能调控方法、超高强度硼钢热成形工艺及模型等开展了相关研究。截止到目前,在Int J Mech Sci、J Mater Process Technol、Mater. Sci. Eng.A、Eur J Mech A Solids等国际权威学术期刊上发表SCI论文30余篇,第一作者或通讯作者发表SCI论文18篇; 申请发明专利20余项,获授权发明专利9件。 论文发表详见:https://www.researchgate.net/profile/Hongli-Hou-2?ev=prf_overview 代表性科研论文: [1]Hongli Hou, Guoqun Zhao*, et al., Anisotropic springback models of FCC metal material under severe plastic compressive deformation, Int J Mech Sci, 202-203(2021). (SCI, IF=9.4) [2]Hongli Hou, Guoqun Zhao*, et al., Springback behavior and a new chord modulus model of copper alloy during severe plastic compressive deformation, J Mater Process Technol, 290(2021). (SCI, IF=7.5) [3]Hongli Hou, Guoqun Zhao*, et al., Nonlinear anelastic behavior and unloading-reloading constitutive models of severe plastic compressive deformation, J Mater Process Technol, 294(2021). (SCI, IF=7.5) [4]Hongli Hou, Guoqun Zhao*, et al., Experimental studies and modeling of strain rate- and temperature-dependent springback behavior of hot-deformed aluminum alloys, J Mater Process Technol, 318(2023). (SCI, IF=7.5) [5]Hongli Hou, Guoqun Zhao*, et al., A strain rate and temperature dependent model for describing nonlinear unloading stress-strain response after warm and hot deformation, J Mater Process Technol, 324(2023). (SCI, IF=7.5) [6]Hongli Hou, Guoqun Zhao*, et al., Nonlinear unloading-reloading behavior and macro/micro models during multi-pass cyclic hot compression of aluminum alloys, Mater. Sci. Eng.A, 882(2023), (SCI, IF=7.0) [7]Hongli Hou, Guoqun Zhao*, et al., The physical-based constitutive models describing complex unloading behavior in cold and thermal deformation process of aluminum alloys, Eur J Mech A Solids, 105(2023). (SCI, IF=4.2) [8]Hongli Hou*, et al., Fatigue behavior and damage mechanism of copper-niobium multi-filament nanocomposite material under cyclic three-point bending, J Mater Res Technol, 39(2025). (SCI, IF=6.6) [9]We Zhang, Hongli Hou*, et al., Mechanism and modeling of high-temperature spheroidization of Nb filaments in Cu-Nb nanostructured composite wires, Mater Charact, 223(2026). (SCI, IF=5.5) [10]Hongli Hou*, et al., Improvement in coordination deformation and interface of high-performance IMD–MgB2 superconducting wire via hot drawing process, J Mater Res Technol, 42(2026). (SCI, IF=6.6) [11]Hongli Hou, Huiping Li*, et al., Effect of technological parameters on microstructure and accuracy of B1500HS steel parts in the hot blanking, Int J Adv Manuf Technol, 95(2018). (SCI, IF=3.1) [12]Huiping Li, Hongli Hou*, et al., Numerical simulation of hot blanking for boron steel B1500HS based on ductile fracture criterion, Int J Adv Manuf Technol, 97(2018). (SCI, IF=3.1) 代表性发明专利: [1] 侯弘历,等.一种高强高弹耐疲劳铜铌复合板带的制备方法, 发明专利, 202411315436.X, 2024; [2] 侯弘历,等.一种耐高温高强高导电导热铜铌异构纳米复合微细丝的制备方法, 发明专利, 202411768324.X,2024; [3] 侯弘历,等.一种基于Cu/PI/Ag三元复合集束热拉拔的超长连续纳米银丝制备方法, 发明专利, 202511372005.1, 2025; [4] 王鹏飞,侯弘历,等.一种低成本卷绕结构铜/不锈钢复合线材的制备方法与流程, 发明专利, 202510331646.6, 2024; [5] 郝梓焱,王鹏飞,吴艺凡,侯弘历,等.一种Cu-Ta复合线材制备方法与流程, 发明专利, 202411688260.2, 2024; [6] 李辉平,侯弘历,等.基于直接感应加热的齿板局部热冲裁系统及工艺, 发明专利, 201611128009.6, 2016; [7] 李辉平,侯弘历,等等.基于间接感应加热的齿板局部热冲裁系统及工艺 , 发明专利, 201611128288.6, 2016; [8] 李辉平,孙亚星, 侯弘历,等.一种具有多工位压冷转盘的板片类零件热冲裁系统及工艺, 发明专利, 201711138771.7, 2017; [9] 李辉平,蒋芮,刘海娟,侯弘历,等.一种连接镁合金与铝合金的挤压装置及方法, 发明专利, 201611024343.7, 2016; 获奖情况: [1] 2020年山东省高等公司科学技术二等奖,“精密高强度零件控形-控性一体化工艺研究及产业化”, 第四位; [2] 2019年山东省优秀硕士学位论文,“硼钢B1500HS热冲裁工艺及断裂机理研究”; [3] 2018年山东省硕士研究生优秀科技创新成果奖, “超高强度硼钢热冲裁性能研究及参数的优化”; |