代表性论文:
[1] Li Cheng, Wensuo Ma*, Xintao Xia, et al. Rolling bearing performance degradation evaluation using grey entropy [J]. Advances in Mechanical Engineering, 2022, 14(03). (SCI, EI Compendex)
[2] Jianjun Yin, Wensuo Ma*, Zuobin Gao, et al. A Review of Electromagnetic Shielding Fabric, Wave-Absorbing Fabric and Wave-Transparent Fabric [J]. Polymer Testing, 2022, 14(03). (SCI, EI Compendex)
[3] Jianjun Yin, Wensuo Ma*, Zuobin Gao, et al. Electromagnetic wave-transparent model for 2D woven composites ellipsoid radome [J]. Mechanics of Advanced Materials and Structures, 2022. (SCI, EI Compendex)
[4] Zhuang Leng, Wensuo Ma*, Zhaohua Huang, et al. Heald frame motion trajectory based on minimum warp friction in the shedding process of three-dimensional woven fabrics[J]. Textile Research Journal, 2022. (SCI, EI Compendex)
[5] Jianjun Yin, Wensuo Ma*, Zuobin Gao, et al. A model for predicting electromagnetic wave absorption of 3D bidirectional angle-interlock woven fabric[J]. Polymer Testing, 2021, 100. (SCI, EI Compendex)
[6] Zhaohua Huang, Wensuo Ma*, Chenhui Jia, et al. Gradient design of tubular of the fiber-reinforced composites pressure vessel for diminishing of the edge effect[J]. International Journal of Pressure Vessels and Piping, 2021, 192. (SCI, EI Compendex)
[7] Wensuo Ma, Kui Liu, Weifeng Fan, et al. 3D angle-interlock woven fabric based on plain group P4mm symmetry[J]. Composite Structures, 2020, 231. (SCI, EI Compendex)
[8] Jianjun Yin, Wensuo Ma*, Zhaohua Huang, et al. A model for predicting electromagnetic shielding effectiveness of conductive fiber plain fabric[J]. Journal of Industrial Textiles, 2020. (SCI, EI Compendex)
[9] Xianping Tu, Xianqing Lei, Wensuo Ma, et al. The minimum zone fitting and error evaluation for the logarithmic curve based on geometry optimization approximation algorithm[J]. Transactions of the Institute of Measurement and Control, 2019, 41(15): 4380-4386. (SCI, EI Compendex)
[10] Wensuo Ma, Zhenyu Ma, Bingjie Ren, et al. Meso-structure and modeling of a new three-dimensional braided tubular material [J]. Journal of Reinforced Plastics and Composites, 2018, 37(05): 310-320. (SCI, EI Compendex)
[11] Wensuo Ma, Bingjie Ren, Weifeng Fan, et al. Quasi-plastic deformation mechanism and off-line secondary molding of four-step three-dimensional braided preform[J]. Journal of Reinforced Plastics and Composites, 2017, 36(21): 1590-1601. (SCI, EI Compendex)
[12] Wensuo Ma, Zhenyu Ma, Jianxun Zhu. Processing technique and geometric model of an imperfect orthogonal 3D braided material[J]. Journal of Industrial Textiles, 2017, 47(03): 297-309. (SCI, EI Compendex)
[13] Wensuo Ma, Zhenyu Ma, Jianxun Zhu. Meso-structure and processing of three-dimensional braided material based on space group P4 symmetry[J]. Textile Research Journal, 2017, 87(14): 1765-1771. (SCI, EI Compendex)
[14] Wensuo Ma, Jianxun Zhu, Yun Jiang. Studies of fiber volume fraction and geometry of variable cross-section tubular 3D five-direction braided fabric[J]. Journal of Composite Materials, 2012, 46(14): 1697-1704. (SCI, EI Compendex)
[15] Wensuo Ma, et al. Plain group analysis of 2D braided composites geometry[J]. Journal of University of Science and Technology Beijing, 2007, 29(2): 226-231+246. (EI Compendex)
[16] Ma Wensuo, Feng Wei. Variable microstructural unit-cell geometrical analysis model of 3D braided tubular composites and components [J]. Acta Materiae Compositae Sinica, 2005, 22(5):162-171.(EI Compendex)
[17] FENG Wei, MA Wensuo. Group theory analysis of braided geometry structures. Chinese Science Bulletin, 2005, 50(21): 2529-2533.
[18] 程立,马文锁*,夏新涛,等. 基于改进模糊熵和灰关系的滚动轴承性能退化评估[J]. 机械传动, 2022, 46(1): 56-64+86.
[19]马文锁,陈凯. 基于理想轨迹的圆管编织机锭子系统结构[J]. 机械设计与制造, 2017(9): 269-272.
[20] 马文锁,朱建勋,蒋云,等. 用空间群推导三维编织的几何结构[J]. 材料科学与工程学报,2010, 28(5): 653-657+687.
[21] 马文锁,杨耀臣. 三维五向管状编织物的几何建模及纤维体积百分含量预测[J]. 河南科技大学学报(自然科学版),2009, 30(4): 16-19, 23.
[22] 马文锁,赵允岭,冯伟. 三维编织复合材料理论研究进展[J]. 材料科学与工程学报, 2006, 24(4): 631-636.
[23]马文锁,任小中. 基于空间群P-3对称性的一种新型三维编织材料[J]. 科学通报,2011,56(8): 598-603.
[24]马文锁,冯伟. 二维编织复合材料几何结构的平面群分析[J]. 北京科技大学学报,2007,29(2):226-231,246.
[25]马文锁,冯伟. 三维管状编织复合材料及其构件可变微单元几何分析模型[J]. 复合材料学报,2005,22(5):162-171.
代表性专利:
[1] 马文锁, 黄钊铧, 范卫锋等. 纤维管编织用组合芯轴: 中国, 209904020[P], 2020-01-07.
[2] 马文锁, 范卫锋, 刘奎等. 基于空间群P4mm对称性的三维双向角联锁织物: 中国, 209243320[P], 2019-08-13.
[3] 马文锁, 任丙杰, 范卫锋等. 圆管三维编织预成型体、编织复合圆管: 中国207128126[P], 2018-03-23.
[4] 马文锁, 谢建军, 陈凯等.一种编织机锭子导向块: 中国, 205152531[P], 2016-04-13.
[5] 马文锁, 谢建军, 陈凯等. 一种编织机用的锭子: 中国, 204982281[P], 2016-01-20.
[6] 马文锁, 陈凯, 贾晨辉等. 一种编织机用的锭子与轨道面板组件: 中国, 204780135[P], 2015-11-18.
[7] 马文锁, 陈凯, 马振宇等. 一种带状二维织物的编织机锭子用的轨道: 中国, 204918985[P], 2015-12-30.
[8] 马文锁, 殷冬冬. 一种铝锭脱模机构: 中国, 203526489[P], 2014-04-09.
[9] 杨建玺, 马文锁. 液压马达: 中国, 203114510[P], 2013-08-07.
[10] 马文锁, 李凯, 范卫锋等. 基于空间群p3*对称性的三维编织设备: 中国, 202576849[P], 2012-12-05.
[11] 马文锁, 李凯, 张玲玲等. 一种用于相同转角同步传动装置: 中国, 202493605[P], 2012-10-17.
[12] 许创, 马文锁, 李凯. 基于空间群p3*对称性的三维编织的工艺设备: 中国, 202576850[P], 2012-12-05.
[13] 马文锁, 李天兴, 苏冰等. 基于空间群P*对称性的三维编织工艺设备: 中国, 202576847[P], 2012-12-05.
[14] 李凯, 马文锁, 许创. 基于空间群p3*对称性的三维编织工艺设备: 中国, 202576851[P], 2012-12-05.
[15] 马文锁, 李凯, 李天兴等. 可拆联接组件及使用该联接组件的联接装置: 中国, 202431665[P], 2012-09-12.
[16] 马文锁, 苏冰, 李天兴. 三维编织材料: 中国, 201908202[P], 2011-07-27.
专著:
马文锁. 三维编织复合材料的群论分析[D]. 上海: 上海大学, 2005.