姓名:娄淑梅
院部:智能装备学院
职称:教授
联系方式:15053850005
E-mail:msl7119@163.com
通讯地址:泰安市泰山区岱宗大街223号
个人简介:
娄淑梅,中共党员,山东大学工学博士。山东科技大学教授,博士生导师。主持国家自然基金、山东省自然基金重点项目、山东省自然基金面上项目、山东省优秀中青年奖励基金、中国博士后基金以及山东省博士后创新基金等纵向项目和多项企业委托课题,2022年获第九届省级教学成果奖二等奖一项。第一和通讯作者发表论文30余篇。指导研究生获山东省优秀硕士论文。获得山东省优秀研究生指导教师、山东省西部隆起带急需紧缺人才、泰安市青年科技贡献奖、泰安市高层次人才、山东科技大学优秀科研工作者、三八红旗手、我心目中的好老师等荣誉称号。
学术兼职:
中国机械工程学会塑性工程分会、中国复合材料学会会员,中国有色金属创新联盟专家,担任The International Journal of Advanced Manufacturing Technology 等SCI、EI杂志评审稿人。
研究方向:
材料加工过程控制及优化,材料加工过程模拟与优化,复合材料结构设计及制备工艺。
教学科研情况(项目):
1) 2021.01.01-2023.12.30山东省自然基金重点项目—“高性能石墨烯增强Al7075复合材料的制备、加工关键技术研究”ZR2020KE013,项目负责人。
2) 2018.1.-2020.12 国家自然科学基金项目—“热挤压工艺对石墨烯铝基复合材料增强增韧的作用及机理研究”(项目编号51705295), 项目负责人。
3) 2014.12-2017.12山东省自然科学基金项目—“大规格多空腔铝型材挤压过程金属瞬态流动规律研究与模具结构多目标优化”(项目编号ZR2014JL040),项目负责人 。
4) 2010.12-2013.12山东省优秀中青年科学家科研奖励基金项目—“非结构网格有限体积法在薄壁铝型材挤压数值模拟过程中的研究与应用”(项目编号2010BS008),项目负责人。
5) 2017.1-2019.12山东省高等学校科技计划项目—“基于神经网络与智能优化算法的大规格多空腔铝型材挤压模具多目标优化方法研究及应用”, (项目编号J16LA58),项目负责人。
6) 2012.1-2014.1中国博士后基金资助—“空心铝型材挤压过程非结构网格有限体积法数值模拟及优化”(项目编号2011M501154),项目负责人。
7) 2013.1-2014.1山东省博士后创新基金资助—“空心铝型材蝶形模挤压工艺分析与研究”(项目编号201203093), 项目负责人。
8) 2023.01.01-2025.12.30,山东省自然科学基金面上项目,轻质高强板大型复杂冲压件多尺度塑性成形机理及协调控制研究,(ZR2022ME032),5/8。
9) 2014.1-2016.1国家自然科学基金—“基于变压边力协同可控拉深筋技术控制板金回弹机理”(项目编号:51305241)第三承担人。
10) 2017.12-2020.12 山东省自然科学基金项目—“镁合金板材超声振动单点渐进成形塑性变形行为及流变驱动微观机理研究” (ZR2018MEE022)(项目编号:ZR2018MEE022)第二承担人。
11)2018/06-2018/07横向项目,固定板注塑件模具设计及产品研发(玻纤加强PA66),项目负责人。
12)2017/12-2018/4横向项目,充压镦形高压密封机构设计及可靠性分析,,项目负责人。
13) 2019/12-2020/03横向项目, 无轨运输可复用快铺MC尼龙重载承压地板技术优化, 项目负责人。
14) 2021/07-2021/12横向项目, 复合材料制品力学性能模拟分析及制品性能优化, 项目负责人。
15)2022/3-2022/6横向项目, 新型玻璃纤维环氧树脂复合材料光伏支架仿真计算,项目负责人。
16) 2022/7-2022/10横向项目,PET复合材料绝缘盆界面结合强度提升研究,项目负责人。
17)2022/09-2022/12横向项目,新型断路器用加热保温装置热流仿真分析,项目负责人。
18)2022/8-2022/12横向项目,新型复合材料电杆特性研究及工程应用,项目负责人。
19)2022/12-2023/06横向项目,浸胶管固化模具加热系统热模拟分析及结构优化,项目负责人。
20)2022/11-2022/12横向项目,壁板压弯成型过程仿真及结构工艺参数优化,项目负责人。
21)2023/6-2023/9横向项目,PET复合材料绝缘盆模流分析、注塑工艺优化及制备,项目负责人。
22)2023/10-2024/01横向项目,天线简易架设系统研发,项目负责人。
23)2023.11.15-2023.12.20,横向项目,天线架设系统寿命评估与环境适应性研究,项目负责人。
24)2023.10.08-2023.12.31,横向项目,铝锂合金燃料贮箱拉形成型过程参数分析及优化,项目负责人。
学术成果(论文、专利等):
论文:
[1] Baojia Cheng, Shumei Lou*, etc. Effects of welding chamber height on properties of porthole die extrudates made of 0.5 wt.% GNPs/Al composite[J]. Vacuum, 2023, 214. DOI:10.1016/j.vacuum.2023.112184. (SCI中科院2区);
[2] Shumei Lou, Baojia Cheng, etc. Effect of adhesive modification and surface treatment of laminates on the single lap bonding joint properties of carbon fibre composites[J]. The Journal of Adhesion, 2023, 1-17. DOI:10.1080/00218464.2022.2163893. (SCI中科院3区)
[3] Shumei Lou,Yiming Li,Baojia Cheng,· Lingwei Ran, · Yue Wang1, · Leyao Xu, · Ben Ma, Chungjian Su. ·Effects of Extrusion Temperature on the Properties of a 0.5 wt.% GNP/Al Composite in Porthole Die Extrusion, Metals and Materials International, 2023, online, https://doi.org/10.1007/s12540-023-01471-1,(SCI中科院2区)
[4] 娄淑梅,李一明,李鑫,陈鹏,白雪峰, 程宝嘉.基于BP神经网络和Arrhenius本构模型的GNP/7075Al复合材料热变形行为[J].吉林大学学报(工学版). 2023. online, DOI:10.13229/j.cnki.jdxbgxb20220756. (EI中文源刊)
[5] Lou, SM. Cheng, BJ. Liu, YQ. Li, X. Bai, XF. Chen, P. Li, YM. Li, L. Influence
of Extrusion Temperature on the Microstructure and Mechanical Properties of a 0.5 wt.% Graphene Nanoplatelet-Reinforced Aluminum Composite. J JOURNAL OF MATERIALS ENGINEERING AND PERFORMANCE.2022.12. 10.1007/s11665-022-07775-4(SCI中科院4区)
[6] Shumei Lou , Yiming Li , Baojia Cheng , Lingwei Ran , Xuefeng Bai , Peng Chen and Qingbiao Wang. Microstructural and Mechanical Properties of Longitudinal Welds in Porthole Die Extrudates of a 0.5 wt.% GNP/Al Composite, Metals, 2023, 13, 522. https://doi.org/10.3390/met13030522(SCI中科3区)
[7] S.M. Lou, L.W. Ran, Y.Q. Liu, P. Chen, C.J. Su, and Q.B. Wang, Effect of Hot Extrusion Ratio on the Mechanical Properties and Microstructure of a 0.5 wt.% Graphene Nanoplatelet-Reinforced Aluminum Matrix Composite[J], Journal of Materials Engineering and Performance. 2022, 31(8): 6533-6544(SCI中科院4区)
[8] Shumei Lou, Xin Li, Guangxin Guo, Lingwei Ran, Yongqiang Liu, Pingping
Zhang and Chunjian Su. Hot deformation behavior and microstructure of a 0.5 wt% graphene nanoplatelet reinforced aluminum composite Science and Engineering of Composite Materials. 2022, 31(8): 97-112. (SCI中科院4区)
[9] Shumei Lou, Guodong Ren, Hui Zhang, Baojia Cheng, and Peng Chen. Effect of Surface Treatment on Properties of Carbon Fiber and Glass Fiber Hybrid Reinforced Composites, Fibers and Polymers, 2022, 23(11), 3225-3231(SCI中科院3区)
[10] 娄淑梅,陈鹏,陈志远,程宝嘉,任国栋. 热处理工艺对玻纤增强聚酰胺66抗老化性能的影响,高分子材料科学与工程,2022,(EI中文)
[11] Shumei Lou, Hui Zhang, Fang Liu, Wenying Yin, Guodong Ren, Zhiyuan Chen, ChunjiaSu. Effects of post-treatment on crystallization behavior of glass fiber-reinforced polyamide 66 composite with red phosphorus flame retardant, Journal of Thermal Analysis and Calorimetry, 2021, 147(13): 7229-7242. (SCI中科院2区)
[12] Lou, SM; Liu, YQ; Qu, CD; Guo, GX; Ran, LW; Zhang, PP; Su, CJ. Influence of a Hot Extrusion with Rectangular-Section on Mechanical Properties and Microstructure of 0.5wt% Graphene Nanoplate-Reinforced Aluminum Composites, ADVANCED ENGINEERING MATERIALS, 2021, 23(4), 1438-1656. (SCI中科院3区)
[13] Shumei Lou, Hui Zhang, Fang Liu, Jianchao Wang, Wenying Yin, Zhiyuan Chen and Chunjian Su. Performance improvements of a short glass fiberreinforced PA66 composite, Science and Engineering of Composite Materials, 2021, 28: 466-477. (SCI中科院3区)
[14] Lou, S; Yin, W; Ma, X; Yuan J; Wang, Q. Mechanical Properties and Fracture Mechanism of a Glass Fiber Reinforced Polypropylene Composites. J. Wuhan Univ. Technol.-Mat. Sci. Edit. 2020, 35, 629-634. (SCI中科院4区)
[15] Lou, Shu Mei,Qu, Chuan Dong, Guo, Guang Xin,Ling Wei Ran, Yong Qiang Liu, Ping Ping Zhang, Chun Jian Su and Qing Biao Wang. Effect of Fabrication Parameters on the Performance of 0.5 wt.% Graphene Nanoplates-Reinforced Aluminum Composites,MATERIALS, 2020, 13(16), 3843. (SCI中科院3区)
[16] Shumei Lou*, Anning Wang, Shuai Lu, Guangxin Guo, Chuandong Qu, Chunjian Su. Tensile property and micro-texture evolution of the charge weld in a billet-to-billet extrusion of AA6061 aluminum profile, The International Journal of Advanced Manufacturing Technology , 2019,103(1-4):1309–1323.
[17] Shumei Lou, Yongxiao Wang, Chuanxi Liu*, Shuai Lu, Sujun Liu, and Chunjian Su. Analysis and Prediction of the Billet Butt and Transverse Weld in the Continuous Extrusion Process of a Hollow Aluminum Profile, Journal of Materials Engineering and Performance, 2017, 26(8): 4121-4130.
[18] Shumei Lou, Yongxiao Wang, Shuai Lu, Chunjian Su,Die structure optimization for hollow aluminum profile[C] Procedia Manufacturing, Volume 15, 2018, Pages 249-256.
[19] Shumei Lou, Yongxiao Wang, Chuanxi Liu, Shuai Lu, Sujun Liu, and Chunjian Su. Analysis and Prediction of the Billet Butt and Transverse Weld in the Continuous Extrusion Process of a Hollow Aluminum Profile, Journal of Materials Engineering and Performance, 2017, 26(8),4121-4130.
[20] Shumei Lou, Yongxiao Wang, Shuai Lu, Chunjian Su. Op timization of a porthole die for an aluminum profile extrusion based on orthogonal test method, International Journal of Engineering Research in Africa 2015,14:49-57.
[21] Shumei Lou, Yongxiao Wang, Shuai Lu, Chunjian Su.Extrusion Process Parameters Optimization for the Aluminum Profile Extrusion of an Upper Beam on the Train Based on Response Surface Methodology, Manufacturing Technology,2016,16(3):551-557.
[22] Shumei Lou, Yongxiao WANG, Shengxue QIN, Guoliang XING, Chunjian SU. Influences of extrusion speed in hollow aluminium alloy profile extrusion, Australian Journal of Mechanical Engineering, 2016, 1-9.
[23] Lou Shumei,Xing Guoliang , Qin Shengxue and Xiao Linjing. The research and optimization of a 6061 aluminum rectangular tube extrusion using porthole dies according to the parameter of split ratio. Applied Mechanics and Materials 2013, 268-270:391-395.
[24] Lou Shumei, Xiao Linjing, Xing Guoliang, Qin Shengxue. Simulation of a 6061 Aluminium Rectangular Tube Extrusion using Porthole Dies, Advanced Materials Research,2013, 807-809 :2726-2730.
[25] Lou Shumei, Xiao Linjing. Research and development of the porthole- die aluminium alloy extrusion processes, Applied Mechanics Materials,2012,427-475M4D:214-218.
[26] Shumei Lou, Guoqun Zhao, Rui Wang. Aluminum alloy profile extrusion simulation using finite volume method on non-orthogonal structured grids, Engineering Computations, 2012, 29(1): 31-47.
[27] Shumei Lou, Guoqun Zhao, Rui Wang. Modelling and application of aluminum alloy profile extrusion processes simulations using finite volume method, Journal of Material Processing Technology, 2008,206(1-3): 481~490. (SCI中科院1区)
[28] Shumei Lou,Guoqun Zhao,Xianghong Wu. Numerical simulation of steady and unsteady aluminium profile extrusion processes using finite volume method, Engineering Computations, 2008, 25(6): 589~605.
[29]娄淑梅,赵国群,王锐. 有限体积法在三维非稳态铝合金挤压过程模拟中的应用,机械工程学报,2007,43(2):122-126.
[30]娄淑梅,赵国群,吴向红. 铝型材挤压过程有限体积法数值模拟技术研究,塑性工程学报,2006.13(4):34-37.
[31]娄淑梅,赵国群,王锐. 铝型材非稳态挤压有限体积法模拟关键技术研究与应用,中国机械工程,2006, 17:96-99.
[32]娄淑梅, 任国栋, 杨振三, 等. 多款胶粘剂对碳纤维复合材料单搭接胶接性能研究[J]. 复合材料科学与工程, 2022.
[33]娄淑梅,张苹苹,冉令伟,李鑫,刘永强.石墨烯增强铝基复合材料制备工艺对比与分析. 热加工工艺, 2021, 50(08): 51-54+58.
[34] Xinying Liu, Jianjun Yuan*, ShuMei Lou**, Dongmin Li and Wenquan Cheng. Effect of Fe on the high-temperature tribological behavior of NiAl/WC-Fex self-lubricating composites produced by thermal explosion. Materials Research Express, 2020, 7(7): 076516.
[35] Chunjian Su, Dong Zhao,· Xuemeng Li, Rui Wang, Yuting Lv, Guosong Zhang, Qiang Zhang, Yanan Yao, Shumei Lou*. Research on the variable parameters of each pass in multipass single‑point incremental forming, The International Journal of Advanced Manufacturing Technology, 2022, online
[36] 路 帅,王永晓,娄淑梅,苏春建. 基于有限元法的空心铝型材挤压过程瞬态分析. 锻压技术,20150, 40 (10): 130-137.
专利、软著:
(1) 一种石墨烯增强铝基复合材料热加工工艺优化新方法.申请号/专利号2020106233640, 实审。
(2) 一种抽真空式透视注塑模具ZL2002 2 1349854.8 娄淑梅,任国栋,张慧,冉令伟
(3) 机械仿真自动控制软件,4309117,娄淑梅,张慧
(4) 汽车发动机冷却系统废热发电装置监测软件V1.0, 9635282,娄淑梅,程宝嘉,夏喜铭,步宇,焦贤运,栾天浩,林峻生,2022.6.1
(5) 管道除锈焊接一体化机器人自动化应用服务系统V1.0,9737735,娄淑梅,宋志强,程宝嘉,李一明,赵英捷,2022.6.20
(6) 基于智能控制的管道除锈焊接一体化机器人操作系统V1.0, 9743742,娄淑梅,宋志强,程宝嘉,李一明,赵英捷,2022.6.20
荣誉称号:
(1) 山东省优秀研究生指导教师;
(2) 山东省西部隆起带急需紧缺人才;
(3) 泰安市高层次人才;
(4)山东科技大学优秀研究生指导教师;
(5)山东科技大学我心目中的好老师;
(6)山东科技大学优秀科研工作者;
(7)山东科技大学三八红旗手。
