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[1] Guo Y., Shi Y., Guo F., Jia, D. A Highly Efficient Method of Thermal Stress Bending with Non-thinning and Grain Refinement. Journal of Materials Research and Technology, 2023, 22:2017-2029.

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[4] 鹿贺伟, 张建军, 刘成龙, 郭峰. 限量供油对速度交叉工况下润滑特性的试验研究. 摩擦学学报, 2023, 43(2):178-188.

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[9] Shuyi Li, Feng Guo, Lam Wong Pat Lam, et al. Skidding Analysis of Exhaust Cam-Roller Unit in the Steady/Startup Operation of Internal Combustion Engine. Lubricants, 2023, 11(9): 361.

[10] Sen Wang, Bin-Jiang Lv*, Tie-Wei Xu, Ning Cui, Feng Guo. Relationships between microstructure and mechanical properties of as-extruded and peak-aged Mg-6Al-3Sn-2Zn alloys. Transactions of Nonferrous Metals Society of China, 33(2023): 1385-1397.

[11] Sen Wang, Fu-Hao Gao, Bin-Jiang Lv*, Feng Guo. Tension Twinning Activity in As-Extruded ATZ632 Alloy During Friction and Wear Processes. Metallurgical and Materials Transactions A, 2023 (54):2486–2503.

[12] Fuhao Gao, Binjiang Lv, Tiewei Xu, Ning Cui, Feng Guo. Effects of Sn and Mn Addition on the Microstructure and Mechanical Properties of As Extruded Mg-2Al-1Zn Alloys. Metals and Materials International, 2023(29):3178–3189.

[13] Binjiang Lv, Fuhao Gao, Junjiang Lv*, Jian Peng. Effect of 0.45 wt.% Nd Addition on the Corrosion Resistance of Extruded Mg-6Al-3Sn-2Zn Alloy. Journal of Materials Engineering and Performance, 2023.

[14] Quansheng Ma, Yongqiang Fu*, Yi Xu**, Tianbao Ma. Achieving superlubricity and high adhesion strength of hydrogenated amorphous carbon film with Al/Cr/Si-doping. Carbon, 2023.

[15] Chenglong Liu, Wei Li, Feng Guo*, Patrick Wong, Xinming Li, Effect of oil dispersion on lubricating film thickness generation under oil droplets supply condition, 2023, 2674603.

[16] Liu, C., Guo, F., Li, X. et al. Enhancement of Lubricant Replenishment Under Limited Lubricant Supply in Rolling Bearings. Tribol Lett 72, 6 (2024).

[17] Ma L, Liu J, Guo F, Li X, Zhang, X. Research on Rolling Contact Fatigue Failure of the Bearing Used in High-Speed Electric Multiple Units’ Axle Box Based on a Damage-Coupled Elastic-Plastic Constitutive Model. Lubricants. 2023; 11(8):330.

[18] 夏俊佳, 尹宇, 周辰, 张树玲, 郭峰, 马兴华. 石墨粉添加对WC增强Ni基复合涂层组织结构及性能的影响. 表面技术, 2023.

[19] Xia, Junjia; Ma, Xing-Hua; Zhang, Zhenlu; Nahm, Sahn; Zhang, Shuling; Ma, Xingyi; Guo, Feng，

Low-temperature sintering and microwave dielectric properties of ZnGa2-xO4-1.5x ceramics with added B2O3. Journal of Materials Science-Materials in Electronics,2023.

[20] Zuomin Wang; Jianjun Zhang; Shijin Wang; Weihui Wang; Qinglun Che. Experimental Investigation on the Effect of Velocity Anisotropy on Oil Film State under Different Surface Wettability Interface, lubricants, 2023, 11(9),381.

[21] Haocheng Wang; Yi Li; Songwei Zhang; Qinglun Che; Litian Hu;Jianjun Zhang ; Outstanding lubrication properties of carbon dot-based ionic liquids, Journal of Molecular Liquids, 2023, 376(2023): 121458

[22] Wang D, Zhang Y, Zhao Q, et al. Tribological mechanism of carbon group nanofluids on grinding interface under minimum quantity lubrication based on molecular dynamics simulation. Frontiers of Mechanical Engineering. 2023, 18(1): 17.

[23] Wang D, Zhang Y, Zhao Q, et al. Tribological Mechanism of Graphene and Ionic Liquid Mixed Fluid on Grinding Interface under Nanofluid Minimum Quantity Lubrication[J]. Chinese Journal of Mechanical Engineering, 2023, 36: 78.

[24] Guo, Y.; Bai, L. Dissipative Particle Dynamics Simulation for the Self-Assembly of Symmetric Pentablock Terpolymers Melts under 1D Confinements. Polymers 2023,15,3982.

[25] Guo Y, di Mare L, Wong J S S. A statistic study on raspberry vesicles: Formation and properties. Polymer,2023,280:126058.

[26] Dong Guo, Shuling Zhang , Shuaizheng Wu, Tenglong Huang, Xinghua Ma and Feng Guo. Design of an Ultra‐Thick Film and Its Friction and Wear Performance under Different Working Conditions.Coatings.2023, 13(7), 1173.

[27] Shuling Zhang , Shuaizheng Wu, Tenglong Huang , Xiangdong Yang, Feng Guo, Bo Zhang，Wenjie Ding.The Effects of Ti/Ni Doping on the Friction and Wear Properties of DLC Coatings.Coatings 2023, 13(10):1743.

[28] Xiancheng Lv, Shuyan Yang, Xianqiang Pei,et al. Tribological anisotropy of PEEK composites filled with highly oriented carbon fibers manufactured by fused deposition modeling. Polymer Composites, 2023.

[29] 孙靖东,杨淑燕*,吴杨，郭峰，周峰. 亲水、疏水聚合物刷水润滑机制的对比研究. 摩擦学学报. 2023.

[30] 范琳,王永强,陈强,刘骁,郭平霞,杨淑燕*，蔡美荣. 弹流润滑状态下热可逆超分子凝胶润滑剂成膜机制的研、疏水聚合物刷水润滑机制的对比研究. 摩擦学学报. 2023.5.

[31] Li, W., Guo, F., Liu, C., Ma, Z.  Experimental Study on the Influence of Stearic Acid Additive on the Elastohydrodynamic Lubrication of Mineral Oil 2137. Lubricants, 2023, 11(10): 446.

[32] Jin, W., Guo, F., Li, S., Jing, Z., & Wong, P. L.. Lubrication Film Generation with Limited Lubricant Supply and Its Tuned Oil Replenishment in a Cylinder-on-Disc Contact. Lubricants, 2023，11(3), 93.

[33] 樊赛生,郭峰,荆兆刚,栗心明,刘海超 POLL G.硬脂酸吸附对轴承限量供油润滑影响.机械工程学报, 2023, 59(15): 197-203.

[34] 简煜升,荆兆刚,郭峰等.限量供油条件下硬脂酸吸附对面接触润滑油膜的影响[J/OL].机械工程学报, 2023, 1-9.

[35] 孙建欣,刘成龙,郭峰,Gerhard Poll,柏林清,栗心明. 限量供油条件下微柱阵列束油表面润滑增效特性研究[J/OL].摩擦学学报,2023,1-14.

[36] 孙楠楠,晁珅,朱桂香等.往复运动条件下润湿梯度表面对限量供油润滑的影响[J].表面技术,2023,52(07):130-138.

[37] 李伟,李书义,郭峰.微量供油反润湿作用下润滑增效数值分析[J/OL].摩擦学学报,1-8[2023-12-28].

[1]    Guo Y., Shi Y., Guo F., Li S. An Auxiliary Thermal Stress Forming Method for Realizing Large Angle. The International Journal of Advanced Manufacturing Technology, 2022,121(7): 4847-4864.

[2]    Jian Y., Jing Z., Guo F., Wong P.L., Li X. Experimental Study on the Lubrication Enhancement of Slider-on-Disc Contact by Stearic Acid Adsorption under Limited Lubricant Supply. Lubricants 2022, 10(12): 353.

[3]    Jing Z., Guo F., Jin W., Kalin M., Polajnar M., Study on the Influence of Interfacial Slip on the Lubrication Performance of a Step Slider Bearing, Tribology International, 2022, 176: 107822. 

[4]    Yu T., Guo F., Zhang X., Ji H., Duan W., Liang P. Water Lubrication Assisted by Small-quantity Silicone Oil. Tribology International, 2022, 173:107619.

[5]    Li S., Guo F., Sun N., Sun G., Chao S., Liu X. Elastohydrodynamic Lubrication Analysis of Cam-roller Pairs of Internal Combustion Engines. International Journal of Engine Research, 2022, https://doi.org/10.1177/14680874221085638.

[6]    Li S., Guo F., Wong P.L., Li X. Numerical Analysis of Lubrication of Conformal Contact with Discontinuous Oil Droplets. Tribology International, 2022, 173:107632.

[7]    Ren F., Yang S., Wu Y., Guo F., Zhou F. Comparative Study on Macro-Tribological Properties of PLL-g-PEG and PSPMA Polymer Brushes. Polymers, 2022, 14(9), 1917.

[8]    Liang P., Li X., Guo F., Cao Y., Zhang X., Jiang F. Influence of Sea Wave Shock on Transient Start-up Performance of Water-lubricated Bearing. Tribology International, 2022, 167: 107332.

[9]    Sun J., Bai L., Guo F., Khan ZA. Experimental Study on the Effect of Micro-Texture on EHL Point-Contact Film Thickness Subject to Sliding Conditions. Materials, 2022, 15(22):7926. 

[10] Liu C., Guo F., Wong P., Li X. Laser Pattern-induced Unidirectional Lubricant Flow for Lubrication Track Replenishment. Friction, 2022, 10(8):1234-1244.

[11] Jin X., Li X., Chen Q., Yang P., Guo F., Jiang N. Observation of Grease Film Behavior in Sliding-Rolling Concentrated Contacts. ASME. J. Tribol. January 2022, 144(1): 011602.

[12] Wang S., Gao F., Lv B., Cui N., Guo F. Effects of 0.5 wt% Nd Addition on the Microstructure and Mechanical Properties of As-extruded and Aged Mg-6Al-3Sn-2Zn Alloys. Journal of Materials Engineering and Performance, 2022, https://doi.org/10.1007/s11665-022-07073-z.

[13]  Lv B., Wang S., Gao F., Cui N., Li Y., Xu T., Guo F. {101¯2} Twin–twin Intersection-induced Lattice Rotation and Dynamic Recrystallization in Mg-6Al-3Sn-2Zn Alloy. Journal of Magnesium and Alloys, 2022, https://doi.org/10.1016/j.jma.2022.08.006.

[14] Ren F., Yang S., Guo F., Zhou F. Comparative Study on Macro-Tribological Properties of PLL-g-PEG and PSPMA Polymer Brush. Polymers, 2022, 14(9):1917.

[15] Guo D., Zhang S., Huang T., Wu S., Ma X., Guo F. Corrosion Properties of DLC Film in Weak Acid and Alkali Solutions. Coatings. 2022, 12(11): 1776.

[16] Liu X., Zhang J., Zhang L., Feng Y., Feng M., Luo N., Wang D. Influence of Interface Liquid Lubrication on Triboelectrification of Point Contact Friction Pair. Tribology International, 2022, 165:107323.

[17] 韩露娟, 郭峰, 栗心明, 李书义. 硬脂酸界面修饰对油膜润滑影响的试验研究. 机械工程学报, 2022, 58(09):182-189.

[18] 金微, 郭峰, 荆兆刚. 关于椭圆接触弹流润滑Hamrock-Dowson膜厚公式的再思考. 摩擦学学报, 2022, 42(01):47-54.

[19] 张肖肖, 李书义, 郭峰, 晁珅, 刘成, 朱桂香. 偏心凸轮-挺柱副摩擦特性试验研究. 内燃机工程, 2022, 43(05):84-90.

[20] 樊赛生, 荆兆刚, 郭峰. 球-环接触下油性添加剂对聚α-烯烃油润滑性能的影响. 润滑与密封, 2022, 47(07):26-32.

[21] 曹玉哲, 梁鹏, 郭峰, 张晓寒, 王超, 姜芙林. 不同工况下表面粗糙度对水润滑轴承启动性能的影响. 推进技术. 2022, 43(07): 457-469.

[22] 李桂枝, 白清华, 栗心明, 杨萍, 郭峰, 金旭阳. 定量供油下球-环/球-盘接触形式润滑特性对比. 摩擦学学报, 2022, 42(4):700-708.

[23] 王旭, 栗心明, 杨萍, 郭峰, 白清华. 喷嘴结构及参数对油气润滑轴承性能影响试验观察. 轴承, 2022:1-7.

[24] 王旭, 栗心明, 杨萍, 郭峰, 池京银. 基于电主轴驱动的油气润滑轴承性能测试系统. 轴承, 2022: 50-54.

[25] 刘文哲, 栗心明, 金旭阳, 江楠, 杨萍. 定量供油下近接触区油池形态试验观察. 摩擦学学报, 2022, 42(3): 532-540.

[26] 王玉荣, 蔡美荣, 邢喜民, 郭峰, 周峰. 含浸凝胶自润滑轴承材料的制备及性能研究. 摩擦学学报, 2022, 42(4):11.

 项目（包括纵向和横向）

[1]    郭峰，房车专用汽车轮毂轴承性能评价系统及其润滑优化技术，山东智连共同体轴承科技有限公司委托，06/2022-05/2025, 20万元，课题负责人。

[2]    郭峰，高端装备用液压油关键技术研究及产业化，山东省重大科技创新工程子课题，10/2022-12/2025，58万元，课题负责人。

[3]    郭峰，油膜测量技术服务，泰德轴承，3万元。

[4]    栗心明，新能源汽车驱动电机轴承导电润滑脂性能衰退机制研究，中国国家自然科学基金面上项目，01/2023-12/2026，54万元。

[5]    栗心明，基于表面修饰的圆锥滚子轴承润滑性能增效研究，山东智连共同体轴承科技有限公司资助项目，06/2022- 5/2025，20万元。

[6]    梁鹏，基于“5-3-1递进”模式的《金属切削原理与刀具》教学改革探索与研究，教育部产学合作协同育人项目，01/2023-12/2013, 5万元。

[7]    杨淑燕，仿生润滑材料界面间水润滑测量光干涉测量系统开发和润滑机制研究，烟台先进材料与绿色制造山东省重点实验室开放课题重点资助项目，01/2022-12/2024，45万元。

[8]    白清华，基于机器视觉的轴承缺陷智能检测系统，山东智连共同体轴承科技有限公司资助项目，06/2023- 5/2025，20万元。

[9]    白清华，圆锥类轴承智能识别分面系统研制，山东智连共同体轴承科技有限公司资助项目，06/2023- 5/2025，20万元。

[10] 白清华，基于光干涉油膜厚度测量仪器的电气模块开发，斯凯孚（上海）汽车技术有限公司，8/2022-12/2022，15.45万元。

[11] 韩素立，用于特种合金材料的水基乳化液配方体系及润滑调控机理研究，山东省自然科学基金面上项目，01/2023-12/2025，10万元。

[12] 王德祥，基于冷等离子体和低温纳米流体微量润滑复合效应的轴承滚道残余应力场可控磨削技术研究，山东智连共同体轴承科技有限公司资助项目，06/2023- 5/2025，20万元。

[13] 王德祥，轴承滚道残余压应力场的可控磨削机制及工艺基础研究，山东省自然科学基金面上项目，01/23-12/25，10万元。

[14] 刘成龙，定制亲疏油图案与仿生微造型耦合的复合沟槽阵列表面润滑增效机理及应用，中国国家自然科学基金青年科学基金项目，01/2023-12/2025，30万元。

[15] 刘成龙，海工装备滚动轴承表面仿生微造型集油拒水机理及应用，山东省自然科学基金青年科学基金项目，01/2023-12/2025，15万元。

[16] 张晓寒，基于微量第二润滑介质的水润滑轴承摩擦学性能调控研究，中国国家自然科学基金青年科学基金项目，01/2023-12/2025，30万元。

[17] 张晓寒，基于微量第二润滑介质的水润滑轴承摩擦学性能调控研究，青岛市博士后创新项目，01/2023-12/2024，5万元。

[18] 郭延阔，小批量复杂曲面板激光点阵柔性成形机理与工艺优化，青岛市博士后

[1] Jin, X., Li, X., Chen, Q., Yang, P., Guo, F., and Jiang, N. (April 19, 2021). Observation of Grease Film Behavior in Sliding-Rolling Concentrated Contacts. ASME. J. Tribol. January 2022; 144(1): 011602.

[2] Zhang X, Yu T, Guo F, et al., Analysis of the Influence of Small Quantity Secondary Lubricant on Water Lubrication. Tribology International, 2021,159:106998.

[3] Zhang X, Jackson RL, A Mixed Lubrication Analysis of a Flat‐land Thrust Bearing with A Surface Optimisation Method. Lubrication Science, 2021,33(6), pp.335-346.

[4] Ma L., Zhang L. , Guo F. et al. (2021) High-Temperature Mechanical Behavior Assessment based on a Developed Constitutive Model of Inconel 718 Fabricated by Selective Laser Melting[J]. Advanced Engineering Materials, 23 (8):1-10.

[5] Bin-Jiang Lv，Sen Wang，Ning Cui，Feng Guo. Twinning and dynamic recrystallization of Mg-7Sn-3Zn alloy under high strain rate hot compression[J]. Materials Science and Engineering: A, 809(2021),140986.

[6] Shuling Zhang , Ning Cui, Wei Sun, Qiucheng Li. Microstructural Characterization and Crack Propagation Behavior of a Novel β-Solidifying TiAl Alloy. Metals. 2021,11: 1231

[7] Liang Peng, Li Xingyang, Guo Feng, et al. Influence of sea wave shock on transient start-up performance of water-lubricated bearing[J]. Tribology International, 2022, 167: 107332.

[8] Liu, C., Guo, F., Wong, P. et al. Laser pattern-induced unidirectional lubricant flow for lubrication track replenishment. Friction (2021).

[9] Yurong Wang, Ping Yang, Bin Guo, Nan Jiang, Jingyin Chi, Jinjie Liu, Shuyan Yang, Feng Guo, Meirong Cai, Feng Zhou, Functionalized phosphate ionic liquids as additives in peg with excellent tribological properties for boundary/mixed/elastohydrodynamic lubrication. Tribology International, 2021,164(4), 107242.

[10] 刘文哲,栗心明,金旭阳,江楠,杨萍.定量供油下近接触区油池形态试验观察[J/OL].摩擦学学报:1-15.

[11] 徐显雨,刘长松,马建明,栗心明.超疏水超亲油三聚氰胺海绵的制备及其油水分离性能[J].材料科学与工程学报,2021,39(04):686-691.

[12] 李桂枝,白清华,栗心明,杨萍,郭峰,金旭阳.定量供油下球-环/球-盘接触形式润滑特性对比[J/OL].摩擦学学报:1-14.

[13] 齐博浩,刘长松,赵欣生,栗心明.超疏水超亲油304不锈钢网的制备及其油水分离性能[J].材料保护,2021,54(02):44-49.

[14] 吕滨江, 王森, 郭峰, 彭建. 少量添加稀土元素Nd和Er对挤压态Mg-6.0Zn-0.5Mn镁合金干摩擦磨损性能的影响[J]. 稀有金属材料与工程, 拟发表在12 (2021), (SCI, Q4)

[15] 曹玉哲, 梁鹏, 郭峰, 等. 不同工况下表面粗糙度对水润滑轴承启动性能的影响[J].推进技术, 2022.

[16] 曹玉哲, 梁鹏, 郭峰, 等. 长径比对重载工况水润滑轴承性能的影响[J]. 润滑与密封, 2021,46(11):60-67.

[17] 王超, 梁鹏, 郭峰，等. 探头中心频率与摩擦副材质对超声膜厚测量范围的影响[J]. 润滑与密封, 2021,46(10):92-99.

[18] 王超, 梁鹏, 郭峰，等. 摩擦副材质对超声波测量膜厚的影响.实验室研究与探索,2021, 40(2):28-33.

[19] 梁鹏,郭峰, 王晓波. 转子压缩机滚动活塞角速度的计算方法比较. 机械设计与制造, 2021, 2:31-34.

[20] 李桂枝,白清华,荆兆刚,郭峰,杨萍,栗心明.球-环接触摩擦力测量系统的研制[J].润滑与密封,2021,46(05):81-85.

[21] 张肖肖,李书义,郭峰,孙楠楠,朱桂香.集油轨道对偏心凸轮限量供油润滑性能的影响[J].内燃机工程,2021,42(05):70-78.

[1] Liu C L, Guo F, Wong P L, Li X M. Tribological behaviour of surfaces with stepped wettability under limited lubricant supply. 2020, 141: 105880.

[2] Li X M, Guo F, Poll G, Fei Y, Yang P. Grease film evolution in rolling elastohydrodynamic lubrication contacts. Friction, 2020, 9(1), 179-190.

[3] Li X M, Zhou G Y, Guo F, Wang X B, Zhang J J. Enhanced lubricant replenishment by angled surface velocities in EHL contacts. Tribology International, 2020, 145: 106132. 

[4] Bin-Jiang Lv*，Sen Wang，Tie-Wei Xu，Feng Guo. Effects of minor Nd and Er additions on the precipitation evolution and dynamic recrystallization behavior of Mg-6.0Z-0.5Mn alloy. Journal of Magnesium and Alloy, https://doi.org/10.1016/j.jma.2020.06.018. (SCI, IF=7.115, Q1)

[5] S.L.Zhang, W.Y.Chen, Y.C.Yu , M.K.Qiu, W.L.Liu. Microstructure of Ti-Based Alloys after Rapid Solidification. Materials Science Forum.2020(993):313-320（会议论文）

[6] Shu-ling Zhang, Wei-ye Chen, Ning Cui, Qian-qian Wu ,You-liang Su. Giant magneto impedance effect of Co-rich amorphous fibers under magnetic interaction. International Journal of Minerals Metallurgy and Materials 2020.27(10)：1415-1420

[7] 马建明,刘长松,徐显雨,栗心明.水热法超疏水铜网的制备及其油水分离性能.热加工工艺,2020(24):31-34.

[8] 陈琪,杨萍,栗心明,郭峰,张利.不同滑滚比条件下脂润滑膜剪切特性试验观察.中国科学:技术科学,2020,50(03):361-368.

[9] 陈琪,杨萍,江楠,栗心明,郭峰,杨沛然.不同滑滚比下润滑油膜流变特性试验观察与数值模拟.摩擦学学报,2020,40(02):158-165.

[10] 杨淑燕, 李栋, 吴杨*, 郭峰*.聚合物PLL-g-PEG构象变化对宏观摩擦学性能的影响.摩擦学学报,2020,40(06):807-815.

[11] 郭圣刚, 刘成龙, 王加林, 丁守福, 郭峰. 条状亲油表面的润滑特性实验研究. 摩擦学学报, 2020, 40(2):195-201.

[12] 韩露娟,郭峰.油性添加剂对限量供油润滑影响的实验研究.表面技术, 2020,49(11):204-211. 

[13] 韩素立,韩亮亮,郭峰,韩露娟.非线性剪切流速分布对滑块轴承承载力的影响.表面技术,2020,49(8):145-152.

[14] 江楠,栗心明,杨萍,郭峰.滑滚条件下定量润滑状态与润滑剂回填效应试验观察[J/OL].摩擦学学报:1-13[2020-12-10]. 

[15] 金微，李书义，荆兆刚，郭峰. 固/液界面润湿性对线接触油膜润滑的影响. 表面技术, 2020,49(9):252-257,280.

[16] 栗心明,周广运,郭峰,张建军.异向卷吸作用下润滑剂回填增强效应试验研究[J].机械工程学报,2020,56(17):225-232.

[17] 李哲,刘成龙,李超,郭峰,栗心明. 条状润湿表面对面接触限量润滑油膜的影响研究. 摩擦学学报，2020, 40(5):601-607.

[18] 王超,梁鹏,郭峰,等.摩擦副材质对超声波测量膜厚的影响,实验室研究与探索，2021.

[19] 王超,梁鹏,郭峰,等. 探头中心频率与摩擦副材质对超声膜厚测量范围的影响.润滑与密封,2021.

[20] 王晓萌,李书义,郭峰,栗心明.一种离子液体的热弹流润滑数值模拟.润滑与密封, 2020,45(02):45-49+55.

[21] 王学锋,郭峰,胡如夫,程晓民.点接触弹流润滑入口凹陷的速度域.润滑与密封, 2020,45(11):41-45+51.

[22] 张树玲,张燕然,刘万里,邱明坤.苦参碱-6、左旋肉碱-柠檬酸离子液体的制备及润滑特性研究.润滑与密封,2020,45(06):39-48.

[23] 周易,朱建荣,孙楠楠,王加林,郭峰.偏心圆凸轮油膜润滑测试系统.润滑与密封, 2020,45(05):72-78.

[24] 朱建荣,李书义,郭晓龙,郭灵燕,郭峰.内燃机凸轮-滚轮型接触副弹流润滑分析.润滑与密封, 2020,45(11):83-90+96.

[1] Zhang X, Xu Y, Jackson R L. A mixed lubrication analysis of a thrust bearing with fractal rough surfaces[J]. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 2019: 1350650119867242.（SCI）

[2] Li S, Guo F, Li X, et al. Effect of the slide-roll ratio on point contact EHL under oil droplet supply[J]. Tribology International, 2019, 130: 261-269.（SCI）

[3] van der Kruk W M, Smit S A, Segers T J, Li X M, Venner C H*. Drop-on-demand printing as novel method of oil supply in elastohydrodynamic lubrication. Tribology Letters, 2019, 67:95.（SCI）

[4] 李书义, 郭峰, 栗心明, 等. 离散供油弹流润滑条件下油滴间距临界值的研究[J]. 中国科学:技术科学, 2019(7):767-777.

[5] 周广运, 栗心明*, 郭峰, 张建军, 王晓波. 表面速度异向条件下定量脂润滑特性试验研究. 摩擦学学报. 2019, 39(5): 635-642.

[6] 陈琪, 杨萍, 栗心明*, 郭峰, 张利. 不同滑滚比条件下脂润滑膜剪切特性试验观察.中国科学: 技术科学, 2019, 49: 1-8. 

[7] 李栋，杨淑燕，郭峰. 水润滑环境下聚合物PLL-g-PEG的宏观摩擦学性能的研究[J].摩擦学学报，2019(4): 434-443.

[8] Liu C L, Guo F, Wong P L. Characterisation of starved hydrodynamic lubricating films[J]. Tribology International, 2019, 131: 694-701.（SCI）

[9] Han S L, Guo F, Shao J, et al. On the Velocity Profile of Couette Flow of Lubricant Within a Micro/Submicro Gap[J]. Tribology Letters, 2019, 67(4): 114.（SCI）

[10] Liu C. L., Guo F.*, Wong P. L., Li, X. M., Tribological behaviour of surfaces with stepped wettability under limited lubricant supply. Tribology International, 2020,141:105880.（SCI）

[11] 荆兆刚, 郭峰, 曾守东. 滑块-盘接触油膜润滑摩擦力测量[J]. 润滑与密封, 2019, 44(3): 48-53．

[1] Li X M, Guo F, Wong P L ,Zhao Y. Regulation of lubricant supply be wettability gradient in rolling EHL contacts[J]. Tribology International, 2018, 120: 565-574.

[2] 栗心明，费杨，郭峰，杨萍. 充分供油条件下的润滑状态转变试验观察[J]. 中国科技论文在线精品论文, 2018,11(2):92-98.

[3] 李宪鹏，杨萍，白清华，栗心明*，郭峰. 高副接触润滑油膜摩擦力测量系统[J]. 润滑与密封, 2018, 43(1): 87-91.

[4] 鲍建辰，刘成龙，栗心明，郭峰，王建. 推力滚子轴承光干涉润滑油膜测试系统[J]. 轴承. 2018, 3: 44-48.

[5] 李志恒，栗心明*，郭峰，刘牧原. 导流式油气润滑喷嘴试验研究[J]. 轴承. 2018, 5: 34-38.

[6] Peng Liang, Changhou Lu, Fazhan Yang. A fast computing approach concerning recess pressure[J]. Industrial Lubrication and Tribology,2018,70(1):1-7.

[7] Bin-Jiang Lv*, Feng Guo*, Qing-LunChe, Yang Xu, Ning Cui, Yuan-Lin Guan. A New Method for Optimizing Hot Processing Parameters of Mg-6.0Zn-0.5Mn-0.5Er Alloy Based on Kinetic Model of Dynamic Recrystallization and Processing Map. Journal of Materials Engineering & Performance, 2018, 27(7):3773-3782.

[8] 杨萍, 崔金磊, 刘晓玲, 杨沛然. 对基于恢复时间的剪稀流变模型的进一步探讨及其对squalane油品流变特性的模拟, 摩擦学学报，2018, 38(1), 101-107.

[9] Li S , Guo F , Li X , et al. Effect of the slide-roll ratio on point contact EHL under oil droplet supply[J]. Tribology International, 2019, 130:261-269.

[10] Shuyan Yang, Janet Wong, Zhou F. Ionic Liquid Additives for Mixed and Elastohydrodynamic Lubrication [J]. Tribology Transaction. 2018, online. DOI: 10.1080/10402004.2018.1426802 

[11] 杨淑燕, Janet Wong, 蔡美荣, 周峰. 混合/流体润滑状态下原位离子液体添加剂的摩擦学性能研究. 摩擦学学报. 2018, 38(3):342-348.

[12] 杨淑燕, 张东, 郭峰. 离子液体和ZDDP的摩擦学性能及协同效应研究. 表面技术. 2018, 47(6):122-130.

[13] 张东, 杨淑燕*, 郭峰. 离子液体和ZDDP的减磨抗磨性及成膜机理探讨. 表面技术. 2018, 47(2):89-95.

[14] 张东, 庞晴晴, 杨淑燕*, 郭峰. 离子液体添加剂对润滑剂摩擦和润滑性能的影响. 表面技术. 2018, 47(1):72-77.

[15] 李超, 白清华, 田鹏晖,等. 微型滑块轴承润滑油膜厚度光学测量系统[J]. 中国测试, 2018(1):85-88. 

[16] 刘牧原, 郭峰, 焦一航,等. 一种新型导流式油气润滑喷嘴[J]. 中国机械工程, 2018, 29(11):1284-1288. 

[17] 王茜, 韩素立, 郭峰. 流体动压条件下润滑油膜黏度的测量方法[J]. 工程与试验, 2018(1).

[18] Shoudong Zeng, Feng Guo, Chao Li, et al. Measurement of lubricant film thickness in a slider-on-disc contact[J]. Tribology Online, 2018, 13(4): 212-219.

[19] Jiang Fulin，Liu Zhanqiang，Yang Fazhan，Sun Shufeng，Zhong Zhaolin. Investigations on tool temperature with heat conduction and heat convection in high-speed slot milling of Ti6Al4V[J]. International Journal of Advanced Manufacturing Technology, 2018(5–8):1-12. 

[1] Liu H C, Guo F, Wong P L, et al. Investigation of adsorbed protein and passive films on hydrodynamic lubricated steel slider surface. Tribology International, 2017, 109:133-139.

[2] 韩素立,李超,郭峰，邵晶，基于FRAP的微间隙润滑油膜流速测量方法[J].光学精密工程, 2017,25(1): 141-147.

[3] 马龙华,刘海超,郭峰,姜培刚. 冲击载荷作用下蛋白质水溶液润滑吸附膜的生长特性[J].医用生物力学,2017,32(6):513-518.

[4] 马龙华,刘海超,郭峰,姜培刚. 冲击载荷下蛋白质水溶液吸附膜形成的实验研究[J].摩擦学学报,2017,(6):768-775.

[5] 韩素立,李超,郭峰. 基于FRAP的微间隙润滑油膜流速测量方法[J].光学精密工程,2017,25(1):141-147.

[6] Qinghua Bai, Feng Guo, Pat Lam Wong, Peigang Jiang. Online Measurement of Lubricating Film Thickness in Slider-on-Disc Contact Based on Dichromatic Optical Interferometry. Tribology Letters, (2017) 65: 145.

[7] C.L. Liu , F. Guo, X.M. Li, S.Y. Li, S.L. Han. Experimental study of elastohydrodynamic lubrication behaviour under single oil droplet supply. Tribology International, 2018, 118:432-440.

[8] H.C.Liu, F.Guo, P.L.Wong, X.Li. Investigation of adsorbed protein and passive films on hydrodynamic lubricated steel slider surface. Tribology International, 2017, 109:133-139.

[9] Li S. Y., Guo F., Li X. M., Liu C.L., Elastohydrodynamic Lubrication with Oil Droplets. Tribology Letters, 2017, 65(4): 162.

[10] Li S. Y., Guo F., Li X. M., Liu C.L.,Numerical simulation of an oil droplet passing through an EHL contact. Tribology International, 2017, 112:58-67.

[11] 臧淑燕,郭峰,李超. 表面亲润性对限量供油润滑影响的研究[J].摩擦学学报,2017,37(4):429-434.

[12] 韩素立,郭峰 ,邵晶, 李超. 基于荧光漂白成像的润滑油膜剪切流速测量[J].摩擦学学报,2017,37(4):442-448.

[13] 刘成龙,栗心明,郭峰,李书义,万勇. 单个微油滴弹流润滑行为的试验研究[J].摩擦学学报,2017,(3):340-347.

[14] 白清华,郭峰,韩素立,黄柏林. 单色光干涉面接触润滑膜厚在线测量[J].仪器仪表学报,2017,(12):2980-2986.

[15] 白清华, 郭峰, 田鹏晖. 面接触润滑测量系统油膜厚度自动计算方法[J]. 润滑与密封, 2017, 42(1):34-40.

[16] 白清华, 郭峰, 姜培刚,黄柏林. 基于双色光干涉的面接触润滑油膜在线测量[J]. 摩擦学学报, 2017, 37(3):283-289.

[17] 栗心明,王少朋 ,郭峰,刘成龙. 纯滚动条件下单液滴输运过程的试验观察[J].润滑与密封,2017.42(10):1-4.

[18] 栗心明,郭峰. 零卷吸条件下界面滑移的试验观察.润滑与密封, 2017,09(42),29-33.

[19] 费杨,栗心明,郭峰,苏晓红,王晓波. 高粘度齿轮油润滑状态转变的试验观察[J].润滑与密封, 2017,12(42),29-33. 

[20] Feng Li, Gang Zhang, Anmin Wang,Feng Guo. The Effects of Surface Mechanical Deformation and Bovine Serum Albumin on the Tribological Properties of Polyvinyl Alcohol Hydrogel as an Artificial Cartilage, Advances in Materials Science and Engineering, vol. 2017, Article ID 4502904, 9 pages, 2017.

[1] Xinming Li, Feng Guo*, Shaopeng Wang, Chenglong Liu, Wenzhong Wang, Behaviours of a micro droplet in an EHL contact. Friction, 2016，4(4): 359–368.

[2] Guo L, Wong P L, Guo F. Boundary Yield Stress and Interfacial Potential Energy Barrier in Thin Film Hydrodynamic Lubrication[J]. Tribology Letters, 2016, 62(1):1-8.

[3] Li X., Guo F.,Wong P.L., “Effect of bovine serum albumin aqueous solution on steel slider surface under hydrodynamic lubrication”, 2016, 93(B): 495–501

[4] 张玉萌, 温天佑, 郭峰. 面接触条件下润滑脂流体动压润滑膜的成膜特性[J]. 润滑与密封, 2016, 41(1):70-74.

[5] 刘海超, 郭峰, 黄柏林. 润滑油膜光干涉测量系统与技术研究进展[J]. 润滑与密封, 2016, 41(6):116-121.

[6] 王志君, 郭峰, 田鹏晖. 界面黏附功与润滑油膜厚度的相关性研究[J]. 润滑与密封, 2016, 41(12):52-56.

[7] 李书义, 郭峰, 臧淑燕. 定量供油条件下面接触油膜润滑特性的数值分析[J]. 润滑与密封, 2016, 41(10):19-24.

[8] 田鹏晖, 郭峰, 王志君,等. 固液界面对流体动压润滑膜厚的影响，表面技术, 2016(10):77-82.

[9] 李志恒，马洪伟，郭峰，栗心明，刘牧原，圆锥滚子轴承油气润滑试验研究，轴承，2016， No.8, 42-45.

[10] 李书义，郭峰，栗心明，微油滴供油條件下彈流潤滑行為的數值分析，摩擦学学报, 2016,Vol. 36(4): 413-420

[1] 刘海超, 郭峰, 郭亮, 黄柏林. 滑块轴承时变润滑油膜厚度测量系统[J], 光电工程, 2015, 42(11): 43-47.

[2] 白清华, 郭峰, 刘海超, 杨淑燕. 面接触润滑油膜测量系统滑块倾角的快速计算[J], 摩擦学学报, 2015, 35(5), DOI: 10.16078/j.tribology.2015.05.001

[3] 刘海超, 郭峰, 赵国垒. 润滑膜厚测量的双色光干涉强度调制方法[J], 摩擦学学报, 2015, 35(3): 282-287

[4] Liu HC, Guo F, Zhang BB, Wong PL. Behaviour of hydrodynamic lubrication films under non-steady state speeds. Tribology International, 2015

[5] Liu HC, Guo F, Guo L, Wong PL. A dichromatic interference intensity modulation approach to measurement of lubricating film thickness. Tribology Letters, 2015, 58(15): 1-11

[6] 张建军,杨沛然,郭峰,王静.偏心轮机构时变点接触热弹流润滑分析.内燃机学报，33(3),277-287

[7] 张建军,郭峰,Kaneta Ｍ,Omasta Ｍ.卷吸与滑动正交的热弹流润滑研究,摩擦学学报，35(4)，pp 477-484

[8] Jianjun Zhang, Peiran Yang, Jing Wang, Feng Guo.The effect of an oscillatory entrainment velocity on the film thickness in thermal EHL point contact, Tribology International,  2015（90）:519–532

[9] 王源, 郭峰, 栗心明, 等. 倾角对面接触润滑油膜厚度影响的实验测量[J]. 润滑与密封, 2015, 40(5): 22-25

[10] 王少朋, 栗心明, 郭峰. 球-盘静态接触间隙条件下润滑油微液滴铺展实验研究[J]. 润滑与密封, 2015, 40(6): 36-39

[1] 赵国垒, 郭峰, 刘海超, 洪政豪. 润滑薄膜测量的双色光干涉强度调制技术[J]. 光电工程, 2014, 41(10): 88-94

[2] 张丽霞，刘涛，潘福全.驾驶员因素对道路交通事故指标的影响分析，中国安全科学学报，2014,24（5）：79-84

[3] 张丽霞，章红梅，潘福全.高速公路路面不平度识别研究，结构工程师,2014,30（4）：105-111.

[4] 张丽霞，陈肖媛，潘福全.汽车最速操纵稳定性评价指标研究，科学技术与工程,2014,14（28）：125-129

[5] Guo L, Wong PL, Guo F, Liu HC. Determination of thin hydrodynamic lubricating film thickness using dichromatic interferometry. Applied Optics, 2014, 53(26): 6066-6072

[6] Li-xia Zhang，Fu-quan Pan，Xiao-yuan Chen，Feng-yuan Wang，Jun Lu，Qi-ming Tong. Vehicle Optimal Velocity Curves for Minimum-Time Maneuver，Advances in Mechanical Engineering,2014,(1):1-9.（SCI）

[1] 陈俊, 李霞, 郭峰. 面接触油膜润滑摩擦力的测量[J]. 工程与试验, 2013, 53(3): 14-17

[2] 肖明辉, 郭峰, 栗心明. 高应力润滑油膜界面滑移测量系统[J]. 润滑与密封, 2013, 38(8): 87-90

[3] Kaneta M., Guo F., Wang J., Guo F., Krupka I. and Hartl M.,, Impact Pressure Increase in Elliptical Impact Elastohydrodynamic Lubrication Contacts with Longitudinal Asperities, ASME Journal of Tribology, 2013, 135: 011503.

[4] 刘广媛，任志强，郭峰，王静. 球轴承弹流润滑模拟系统. 润滑与密封, 2013, 38(9): 37-41.

[1] 肖明辉, 郭峰. 基于 PLC 控制的润滑实验机正弦运动的实现[J]. 工业控制计算机, 2012, 25(7): 34-35

[2] Li X., Guo F., Yang S., Wong P.L., "Measurement of Load-Carrying Capacity of Thin Lubricating Films", ASME Trans. Journal of Tribology, 2012, Vol. 134(3), 044501-(105) .

[3] Yang S. Guo F, Wang H.F, "Study of Orientation Effects of Grooves on the. Film Thickness in Hydrodynamic Lubrication", Nanoscience and Nanotechnology Letters, 2012, Vol. 4: 895-900.

[4] Yang S.,Wang H.F, Guo F., "Experimental investigation on the groove effect in hydrodynamic lubrication", Proc. IMechE, Journal of Engineering Tribology, 2012, 226(4):263-273.

[5] Fu Z., Guo F., Wong P.L., "Friction-speed characteristics of elastohydrodynamic lubricated contacts with anomalous film shapes", Proc. IMechE, Part J, Journal of Engineering Tribology, 2012，Vol.226 (2): 81-86

[6] Guo F., Li X.M., Wong P.L., "A novel approach to measure slip-length of thin lubricant films under high pressures", Tribology International, 2012, Vol. 46, pp. 22-29.

[7] Kaneta M., Wang J., Guo F., Krupka I. and Hartl M., "Effects of Loading Process and Contact Shape on Point Impact Elastohydrodynamics"，Tribology Transactions，2012, 55(6)：709920.

[8] 赵国垒,周广梅,郭峰,"弹流油膜彩色光干涉系统的特性研究", 光学技术, 2012, Vol. 38(4):451-458

[9] 李霞，郭峰，杨淑燕，"润滑薄油膜承载力的测量"，摩擦学学报，2012, Vol. 32(2): 139-143

[10] 栗心明，郭峰，黄柏林。弹流油膜界面滑移长度的定量测量。摩擦学学报, 2012,Vol 32 (1): 34-39. (EI)

[11] 周广梅，郭峰，李洪升，润滑油膜双色光干涉测量系统的特性研究，光学学报，2012，32（3）， 00312006(EI).

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