【个人简介】 苟如意,男,高级实验师,工学博士。主要从事井下工具超硬材料轴承、环空带压诊断机理与配套装备、油藏物理法增产机理与装备的教学与科研工作。主要包括PDC轴承的摩擦磨损机理研究、PDC轴承的研制与推广、便携式环空带压诊断系统与软件、振动采油设备、超声波采油设备、低频电脉冲采油设备等。先后主持和参与国家重点研发计划、国家自然科学基金、油田横向科研项目10余项。近年来在国际高水平期刊Tribology International, Ceramics International, International Journal of Refractory Metals & Hard Materials, Diamond & Related Materials上发表多篇学术论文,同时担任多个学术期刊审稿人。授权发明专利20余项,美国专利2项。指导学生参与机械类、电子类国内学科竞赛获奖20余项。 【论文著作】 期刊论文: [1] Gou Ruyi; Chen Jingjing; Luo Xun. Nanomolybdenum disulfide additive improves the tribological behavior of cobalt removal polycrystalline diamond compact[J]. Tribology International, 2022, 176: 107896. (SCI, 中科院1区Top) [2] Gou Ruyi; Luo Xun; Chen Jingjing; et al. Study on the tribological properties of diamond and SiC interactions using atomic scale numerical simulations[J]. Tribology International, 2023, 178: 108093. (SCI, 中科院1区Top) [3] Gou Ruyi; Chen Jingjing; Luo Xun; et al. Tribofilm formation mechanism and friction behavior of polycrystalline diamond compact after cobalt leaching added molybdenum disulfide nanoparticles in different base oils[J]. International Journal of Refractory Metals & Hard Materials, 2023, 111: 106101.(SCI, 中科院1区Top) [4] Gou Ruyi; Luo Xun. Friction behavior and wear mechanism of the PDC-CR in comparison with different friction pairs at high temperatures[J]. Ceramics International, 2024, 50(5): 8132-8140. (SCI, 中科院1区Top) [5] Chen Jingjing; Gou Ruyi*; Luo Xun; et al. Friction behavior of polycrystalline diamond compact and the evolution of the friction film under different matching materials[J]. International Journal of Refractory Metals & Hard Materials, 2023, 115: 106313. (SCI, 中科院1区Top) [6] Gou Ruyi; Chen Jingjing; Luo Xun; et al. Tribological behavior of the friction film of polycrystalline diamond compact and different matching materials in drilling fluid[J]. Journal of Alloys and Compounds, 2023, 967: 171703. (SCI, 中科院2区Top) [7] Gou Ruyi; Chen Jingjing. Tribological properties of Graphene/MoS2 combinations as lubricant additives for polycrystalline diamond compact[J]. Ceramics International, 2024, 50(8): 12713-12723. (SCI, 中科院2区Top) [8] Gou Ruyi; Liang Tao; Zhao Liqiang; et al. Evaluation of cobalt removal from polycrystalline diamond compact in the coupling mechanism of acid leaching and electrolysis[J]. International Journal of Refractory Metals & Hard Materials, 2024, 124: 106808.(SCI, 中科院2区Top) [9] Gou Ruyi; Luo Xun; Xu Guohe; et al. Improvement of ambient temperature tribological properties of polycrystalline diamond compact treated by cobalt removal[J]. Diamond & Related Materials, 2021, 119: 108567. (SCI, 中科院2区) [10] Gou Ruyi; Luo, Xun; Li Kunyao; et al. PCD after cobalt leaching reinforced by high temperature annealing: Tribological properties and graphitization evolution[J]. Diamond & Related Materials, 2022, 125: 108988. (SCI, 中科院2区) [11] Luo Xun; Gou Ruyi*; Li Kunyao; et al. High-temperature annealing of polycrystalline diamond compact with cobalt removal and evolution of tribological properties of grinding balls[J]. Diamond & Related Materials, 2022, 126: 109073. (SCI, 中科院2区) [12] Gou Ruyi; Zhao Jiawang; Luo Xun; et al. Tribological behavior of cemented carbide for bearing in water-based drilling fluid under different axial loads[J]. Materials Today Communications, 2023, 37: 107628. (SCI, 中科院3区) [13] Gou Ruyi; Chen Jingjing; Li Jinhe; et al. Lubrication performance of nano-molybdenum disulfide as additive in drilling fluid in polycrystalline diamond compacts[J]. The International Journal of Advanced Manufacturing Technology, 2023, 129(9): 3889-3899. (SCI, 中科院3区) [14] Gou Ruyi; Zhao Jiawang; Luo Xun. Tribological behavior of PDC-CR at different temperatures[J]. Diamond & Related Materials, 2024, 144: 110950. (SCI, 中科院3区) [15] Gou Ruyi; Zhao Jiawang; Luo Xun; et al. Molecular dynamics study on tribological properties of AlCrFeCoNi HEA at different temperatures[J]. Materials Chemistry and Physics, 2024, 324: 129723. (SCI, 中科院3区) [16] Zhao Jiawang; Gou Ruyi*; Zhao Liqiang; et al. An investigation on tribological behavior of TC bearing materials: Effect of nano-SiO2 concentrations under different loads in the drilling fluid environment[J]. Materials Today Communications, 2024, 41: 110672. (SCI, 中科院3区) [17] Gou Ruyi; Kang Chenchen; Luo Xun. Numerical analysis study on the application of three-lobed vortex tube in low-production wells[J]. Journal of Mechanical Science and Technology, 2023, 37(6): 2969-2980. (SCI, 中科院4区) [18] Gou Ruyi; Zhang Jinfa; Long Shunjun. Numerical Study on Cavitation Characteristics of Multi-channel Venturi Nozzle[J]. Iranian Journal of Science and Technology-Transactions of Mechanical Engineering, 2024, 48(4): 1797-1812. (SCI, 中科院4区) [19] Gou Ruyi; Luo Duan; Dong Juntao; et al. Large eddy simulation study of a Venturi cavitation nozzle with two auxiliary flow channels[J]. International Journal of Chemical Reactor Engineering, 2025, 23(11): 1391-1405. (SCI, 中科院4区) [20] Luo Xun; Gou* Ruyi. Friction and wear of polycrystalline diamond in oil drilling: a review[J]. Fullerenes, Nanotubes and Carbon Nanostructures, 2025, 33(5): 473-486. (SCI, 中科院4区) [21] Gou Ruyi; Zhu Zhiming; Gong Jie; et al. Role of nanoparticle materials as lubricants additives for polycrystalline diamond compact after cobalt leaching[J]. Journal of Materials Research, 2025, 40(11): 1629-1640. (SCI, 中科院4区) [22] Gou Ruyi; Chen Jingjing; Luo Xun. Effect of different base oils on the friction behaviour of polycrystalline diamond compact[J]. Lubrication Science, 2024, 36(4): 286-297. (SCI, 中科院4区) [23] Gou Ruyi; Zhang Xiaodong; Yang Wenwu; et al. Finite element analysis of surface indentation on turbo-drill thrust ball bearing[J]. Australian Journal of Mechanical Engineering, 2020, 18(3): 385-394. (EI, 期刊论文) [24] Gou Ruyi; Zhang Xiaodong; Yang Wenwu; et al. Turbo-drill thrust ball bearing raceway fatigue analysis based on the Dang Van criterion[J]. Australian Journal of Mechanical Engineering, 2021, 19(5): 559-568. (EI, 期刊论文) 授权发明专利: [1] 苟如意,龙顺军,张金发,唐文,张嘉昊,李雨潼,林栩,高茂婷.一种间歇式振荡空化装置[P].中国专利: CN116446810A, 2023. 07. 18. [2] 苟如意,张金发,程政皓,张嘉昊,龙顺军,陈菁菁.一种井下反向旋流对冲空化装置[P].中国专利: CN115387751A, 2022. 11. 25. [3] 苟如意,陈菁菁,罗训,康晨晨,张金发,龙顺军,张高权.一种井下随机冲击载荷下四支点轴承试验装置[P].中国专利: CN114910267A, 2022. 08. 16. [4] 苟如意,康晨晨,罗训,叶鑫,钟思鹏.一种旋流脉冲空化装置[P].中国专利: CN114307899A, 2022. 04. 12. [5] 苟如意,张金发,龙顺军,曹澎涛,张嘉昊,蒋预祝,胡沐峰,邓潘,朱文清.一种井下双涡轮空化发生装置[P].中国专利: CN114837635A, 2022. 08. 02. [6] 苟如意,龙顺军,康晨晨,张金发,蒋预祝,胡沐峰,邓潘,朱文清.一种多级加速旋流空化装置[P].中国专利: CN114733424A, 2022. 07. 12. [7] 苟如意,龙顺军,程政皓,张轶茗,张金发,康晨晨,陈菁菁,罗训.一种振荡脉冲空化装置[P].中国专利: CN115247556A, 2022. 10. 28. [8] 苟如意,康晨晨,罗训,陈菁菁,龙顺军,张金发.一种自激型脉冲式涡流井下排采工具[P].中国专利: CN113236214A, 2021. 08. 10. [9] 苟如意,罗训,程政皓,康晨晨,张轶茗,张大钦,陈菁菁.一种井下动力钻具滚滑复合动压润滑轴承[P].中国专利: CN112833094A, 2021. 05. 25. [10] 苟如意,罗训,康晨晨,钟思鹏,张大钦,庞小棚,王震,张文博.一种冲击载荷下井下止推轴承摩擦磨损特性试验装置及方法[P].中国专利: CN113432872A, 2021. 09. 24. [11] 苟如意,陈薇羽,赵立强,刘平礼,罗志锋,杜娟.一种潜油电泵吸入口自动清洁装置[P].中国专利: CN111550455A, 2020. 08. 18. [12] 苟如意,朱梓旭,张轶茗,方世纪,向朝阳,张大钦.一种基于岩石电阻变化的裂纹分布检测方法[P].中国专利: CN111896581A, 2020. 11. 06. [13] 苟如意,陈薇羽,赵立强,刘平礼,罗志锋,张楠林.一种旋转式井下空化发生器[P].中国专利: CN111594128A, 2020. 08. 28. [14] 苟如意,张晓东,杨文武,何方舟.一种涡轮钻具轴向冲击载荷自适应调节装置[P].中国专利: CN107401373B, 2017. 11. 28. [15] 苟如意,张晓东,杨文武,何方舟,徐国何.一种自旋式内防喷工具[P].中国专利: CN107288570B, 2017. 10. 24. [16] 苟如意,张晓东,张也,龙平.一种井下动力钻具均载推力滑动轴承组[P].中国专利: CN102537032A, 2012. 07. 04. [17] Gou Ruyi; Chen Weiyu; Zhao Liqiang; Liu Pingli; Luo Zhifeng; Zhang Nanlin. Rotary Downhole Cavitation Generator[P]. US20220010665(A1), 2022. 01. 13. [18] Gou Ruyi; Chen Weiyu; Zhao Liqiang; Liu Pingli; Luo Zhifeng; Du Juan. Automatic cleaning device for suction port of electric submersible pump[P]. US20210301835(A1), 2021. 09. 30. [19] 王国荣,苟如意,刘清友,唐洋,周守为,龚彦,李中,钟林,李清平,刘和兴,李炎军.一种深海双层管井底三通道压力控制系统及控制方法[P].中国专利: CN111622697A, 2020. 09. 04. [20] 王国荣,吕志宇,苟如意,刘清友,钟林,胡刚,周守为,龚彦,李中,唐洋,李清平,刘和兴,李炎军.一种双层管双梯度钻井技术的井身结构优化方法[P].中国专利: CN112878904A, 2021. 06. 01. 【课题成果】 [1] 科技部,国家重点研发计划子课题,2019YFC0312305,1500m水深中深层泥质粉砂天然气水合物开采井下举升泵支承节及密封设计与研制,2020-01至2021-12,主持 [2] 西南石油大学科研“启航计划”项目,2019QHZ006,冲击重载下聚晶金刚石滚滑复合轴承的摩擦与润滑特性研究,2020-01至2022-12,主持 [3] 国家自然科学基金委,国家自然基金面上项目,52374011,弱胶结水合物井下旋流分离破胶机理研究与模型建立,2024-01至2027-12,参研 [4] 西南油气田分公司蜀南气矿,企业委托项目,往复式压缩机宽工况自适应策略研究与应用,2024-1至2025-12,主持 [5] 四川省高等学校创新实验项目,油气装备仿生织构设计与激光加工实验,2023-08至2025-08,参研 [6] 西南石油大学校级教改项目,混合模式下的机械制造工艺学实验教学研究与实践,2020-01至2021-12,参研 [7] 四川省教育厅,创新创业训练项目,S202210615167,涡流排采工具旋流特性分析与参数优化研究,2022-11至2023-11,指导老师 【荣誉奖励】 [1] [四川省职工“五小”活动先进班组(劳模工作室),2021年,成员 [2] 校优秀硕士论文指导教师,2024年,西南石油大学 [3] 校大学生课外开放实验优秀指导教师,2024年,西南石油大学 [4] 2024年全国三维数字化创新设计大赛,国A竞赛全国决赛二等奖,指导老师 [5] 2023年全国三维数字化创新设计大赛,国A竞赛全国决赛二等奖,指导老师 [6] 2023年全国三维数字化创新设计大赛,国A竞赛省特等奖,指导老师 [7] 2025年CIMC中国智能制造挑战赛,国A竞赛,全国决赛二等奖,智能制造通识方向,指导老师 [8] 工业和信息化人才交流中心2025年蓝桥杯全国软件和信息技术专业人才大赛,全国决赛,优秀奖,指导老师 [9] (截止2025年12月)指导学科竞赛获得省级以上奖励23项 【备注其他】 培养的研究生,多人获得校长奖学金、国家奖学金和学术标兵等多项荣誉,毕业后进入国企工作或知名高校深造,真诚欢迎热爱科研的同学加入,并肩奋斗,共同成长! |
