孟鑫淼 Xinmiao MENG

QQ截图20160906132122

职务:北京林业大学 副教授

学位:清华大学  土木工程系  工学博士

专业:土木工程

研究方向:复合材料夹芯结构、竹木结构、3D打印结构、柔性光伏电池板等新材料与新型结构

Email: mengxinmiao@bjfu.edu.cn

教育经历

  • 2005.08-2008.07    河南省商丘市第一高级中学
  • 2008.08-2012.07    重庆大学土木工程系  土木工程专业  获工学学士学位
  • 2012.08-2017.07    清华大学土木工程系  土木工程专业  获工学博士学位
  • 2015.01-2015.08    瑞士洛桑联邦理工大学(EPFL)  联合培养博士

研究领域

FRP曲面夹芯板力学性能及应用技术,FRP-竹/木组合结构,建筑用3D结构力学性能,柔性薄膜太阳能电池力电性能

研究成果 Publications

教学成果

  • 《结构力学》获评北京林业大学第三届“好评课堂”
  • 北京林业大学教学改革论文:生态土木特色新工科建设与实践

论文 Papers

英文期刊论文

  • [1] Mohammed Y. Wahan, Zhancheng Zhang, Xinmiao Meng*, Ying Gao, Xiaodong Ji. Mechanical behavior of GFRP-bamboo composite shear connections. Construction and Building Materials, 2022, 331: 127333.
  • [2] Daobo Zhang, Xinmiao Meng, Peng Feng, Nan Hu, . Experimental study on loading-induced power generation decline of component-level flexible solar cells. Thin-walled Structures, 2022, 175: 109231.
  • [3] Donghui Zhao, TianQiao Liu, Xiaofeng Lu, Xinmiao Meng*. Experimental and numerical analysis of a novel curved sandwich panel with the pultruded GFRP strip core. Composite Structures, 2022, 288: 115404.
  • [4] Feiyang Xu, Shiqing Xuan, Wei Li, Xinmiao Meng*, Ying Gao. Compressive performance of steel-timber composite L-shaped columns under concentric loading. Journal of Building Engineering, 2022, 48: 103967.
  • [5] Yousef Y. Sewar, Zhancheng Zhang, Xinmiao Meng*, Mohammed Y. Wahan, Hanxiao Qi. Mechanical properties and constitutive relationship of the high-durable parallel strand bamboo. Journal of Renewable Materials, 2022, 10(1): 219-235.
  • [6] Ying Gao, Feiyang Xu, Ye Zhang, Hongda Yang, Xinmiao Meng*. Experimental and numerical study on the lateral torsional buckling of full-scale steel-timber composite beams. Advances in Structural Engineering, 2022, 25(3): 522-540.
  • [7] Xinmiao Meng*, Daobo Zhang, Peng Feng, Nan Hu. Review on mechanical behavior of solar cells for building integrated photovoltaics. Sustainable Structures, 2021, 1(2): 1-19.
  • [8] Xiang Li, Shuaiyu Zhao, Xinmiao Meng*, Xiaodong Ji. Bearing capacity and mechanical behavior of an innovative bamboo fiber-reinforced polymer tendon with U-head. Polymers, 2021, 13(22): 3976.
  • [9] Ying Gao, Shiyi Mei, Xingxia Ma, Xinmiao Meng. Effects of decay on the mechanical properties of nailed joints in light wood frame structure. Forest Products Journal, 2021, 71(1): 46-57.
  • [10] TianQiao Liu, Peng Feng, Yuwei Wu, Shuxin Liao, Xinmiao Meng. Developing an innovative curved-pultruded large-scale GFRP arch beam. Composite Structures, 2021, 256: 113111.
  • [11] Qibin Hu, Ying Gao, Xinmiao Meng, Yue Diao, . Axial compression of steel–timber composite column consisting of H-shaped steel and glulam. Engineering Structures, 2020, 216: 110561.
  • [12] Shi Cheng, Peng Feng, Xinmiao Meng, Zhiyuan Li, Jike Du. Compression behavior of large-scaled cylindrical GFRP chimney liner segments. Composite Structures, 2020, 232: 111543.
  • [13] Peng Xie, Wen Liu, Yucun Hu, Xinmiao Meng, Jiankun Huang. Size effect research of tensile strength of bamboo scrimber based on boundary effect model. Engineering Fracture Mechanics, 2020, 239: 107319.
  • [14] Peng Feng, Xinmiao Meng, Hanqing Zhang. Mechanical behavior of FRP sheets reinforced 3D elements printed with cementitious materials. Composite Structures, 2015, 134(): 331-342.
  • [15] Peng Feng, Xinmiao Meng, Jian-fei Chen, Lieping Ye. Mechanical properties of structures 3D printed with cementitious powders. Construction and Building Materials, 2015, 93: 486-497.
  • [16] Peng Feng, Pan Zhang, Xinmiao Meng, Lieping Ye. Mechanical analysis of stress distribution in a carbon fiber reinforced polymer rod bonding anchor. Polymers, 2014, 6(4): 1129-1143.

中文期刊论文

  • [1] 梅诗意, 赵东晖, 孟鑫淼, 齐晗笑, 高颖. 弧面竹青抗拉性能试验. 林业工程学报, 2022, 已录用.
  • [2] 贾贺然, 高颖, 孟鑫淼*, 杨鸿达, 张也, 徐飞扬. 木榫旋转焊接节点剪切试验研究与理论分析. 林业工程学报, 2022, 7(1): 38-44.
  • [3] 高娜, 杨雨欣, 郝蕊芳, 孟鑫淼. 北京市北沙河上游典型小流域水环境治理措施的生态效益分析. 环境科学学报, 2022, 42(2): 1-10.
  • [4] 杨鸿达, 王宁, 孟鑫淼, 朱旭东, 高颖. 竹榫旋转焊接工艺参数及机理探究. 北京林业大学学报, 2022, 44(2): 141-150.
  • [5] 熊亚荻, 赵东晖, 陈泓君, 高颖, 孟鑫淼*. 腹板开孔木工字梁受弯性能试验及有限元分析. 广西林业科学, 2021, 50(6): 725-733.
  • [6] 贾贺然, 王宁, 孟鑫淼*, 高颖, 朱旭东. 倾斜角度对木榫旋转焊接节点抗剪性能的影响. 广西林业科学, 2021, 50(3): 252-258.
  • [7] 哈维尔, 刘问, 孟鑫淼, 张涵政, 李康宁. 基于断裂理论的竹纤维复合材料拉伸强度的尺寸效应研究. 复合材料科学与工程, 2021, (2): 11-18.
  • [8] 李翔, 孟鑫淼*, 郝蕊芳, 李炳, 冀晓东. 北京市昌平区生态清洁小流域护坡技术工程示范与综合效益分析. 环境科学学报, 2021, (1): 29-38.
  • [9] 李威, 高颖, 孟鑫淼*, 胡祺斌, 邱雅琴. 角钢-集成材L形组合柱的受压性能研究. 林业工程学报, 2020, 5(1): 53-60.
  • [10] 吴祐德, 孟鑫淼, 冯鹏, 林红威. 基于表观属性的毛竹轴向抗压强度预测模型研究. 工业建筑, 2020, 50(4): 71-75.
  • [11] 谢鹏, 刘问, 胡雨村, 孟鑫淼, 张涵政. 重组竹横向准脆性断裂的断裂参数. 复合材料学报, 2020, (6): 1466-1475.
  • [12] 刁玥, 贾贺然, 孟鑫淼, 高颖, 张佳男. CLT墙体-楼板T型连接抗剪性能特征值分析方法对比研究. 北京林业大学学报, 2019, 41(8): 147-153.
  • [13] 冯鹏, 张汉青, 孟鑫淼, 张涛, 林红威. 3D打印技术在工程建设中的应用与前景. 工业建筑, 2019, 49(12): 154-165,194.
  • [14] 孟鑫淼, 冯鹏, 黄盛楠. FRP在功能结构一体化非线性建筑中的应用. 玻璃钢/复合材料, 2014, (12): 31-35.
  • [15] 程璐, 冯鹏, 徐善华, 孟鑫淼. CFRP加固钢结构抗疲劳技术研究综述. 玻璃钢/复合材料, 2013, (4): 58-62.

国际会议论文

Meng Xinmiao, Feng Peng, Zheng Yi. The application to bridge enclosure system of  FRP curved sandwich panels with foam core. 6th Asia-Pacific Conference on FRP in Structures (APFIS2017), July 19-21, 2017, Singapore.

Meng Xinmiao, Feng Peng, Zhang Daobo. Experimental study on the mechanical behavior of FRP curved sandwich panels with foam core [C]. The 8th International Conference on FRP Composites in Civil Engineering (CICE 2016), Dec 14-16, 2016, Hong Kong, China.

Meng Xinmiao, Feng Peng, Keller Thomas. Theoretical study on the mechanical behavior of FRP curved sandwich panels with foam core [C]. The 8th International Conference on FRP Composites in Civil Engineering (CICE 2016), Dec 14-16, 2016, Hong Kong, China.

Meng Xinmiao, Feng Peng. Experimental study on mechanical behavior of FRP reinforced 3D printed elements [C]. 18th International Conference on Composite Structures (ICCS18), 2015, Lisbon, Portugal.

国内会议论文

孟鑫淼, 冯鹏. FRP 增强 3D 打印构件的力学性能试验[C]. 第九届全国建设工程 FRP 应用学术交流会论文集, 2015, 重庆.

冯鹏, 叶列平, 孟鑫淼. FRP 加固与增强金属结构的研究进展[C]. 第22届全国结构工程学术会议论文集第I册, 2013, 新疆乌鲁木齐.

冯鹏, 蔡亚庆, 孟鑫淼. 非线性建筑中集成太阳能电池表皮的 FRP 夹心结构的设计方法[C]. 第八届全国建设工程 FRP 应用学术交流会论文集, 2013, 哈尔滨.

专利 Patents

发明专利

  • 冯鹏, 孟鑫淼. 一体化强化泡沫夹芯板及其制备方法, 授权日期:2017.11.17,发明专利号:201510328840.5
  • 冯鹏, 孟鑫淼. 纤维增强复合材料增强3D打印结构, 申请日期:2014.10.21,申请号:201410562068.9
  • 冯鹏, 孟鑫淼. 蜂窝夹芯及其制备方法, 申请日期:2015.6.15,申请号:201510328944.6
  • 冯鹏, 孟鑫淼. 复合蜂窝夹芯板, 申请日期:2015.6.15,申请号:201510328868.9
  • 冯鹏, 孟鑫淼. 强化泡沫夹芯板及其制备方法, 申请日期:2015.6.15,申请号:201510328945

实用新型专利

  • 冯鹏, 孟鑫淼. 纤维增强复合材料增强3D打印结构, 授权日期:2015.04.15,实用新型专利号:201420609641.2.
  • 冯鹏, 孟鑫淼. 一体化强化泡沫夹芯板, 授权日期:2015.10.28,实用新型专利号:201520410570.8.
  • 冯鹏, 孟鑫淼. 蜂窝夹芯, 授权日期:2015.12.2,实用新型专利号:201520411480.0.
  • 冯鹏, 孟鑫淼. 复合蜂窝夹芯板, 授权日期:2015.12.2,实用新型专利号:201520412247.4.
  • 冯鹏, 孟鑫淼. 强化泡沫夹芯板, 授权日期:2015.12.9,实用新型专利号:201520411517.X.

获奖与荣誉

  • 研究生期间,曾获:蒋南翔奖学金,光华二等奖学金等荣誉。

 

孟鑫淼 Xinmiao MENG

QQ截图20160906132122

Lecture, Beijing Forestry University

PhD, School of Civil Engineering, Tsinghua University of Civil Engineering Department

Research Area:FRP sandwich structures, bamboo/wooden structures composed with FRP, 3D printed structures and BIPV structures

Email: mengxinmiao@bjfu.edu.cn

Education

  • The No.1 Senior Middle School in Shangqiu, Henan Province, 2004.09-2008.07
  • School of Civil Engineering, Chongqing University, China, Bachelor, Civil Engineering, 2008.08 – 2012.07
  • School of Civil Engineering, Tsinghua University, China, PhD, Civil Engineering, 2012.08 – 2017.07
  • Exchanged to EPFL, Switzerland, 2015.01-2015.08

Research Interests

  • FRP sandwich structures
  • bamboo structures reinforced wiht FRP
  • 3D printed structures
  • Mechanical-photovoltaic properties of solar cells

Publication

International Journal

  • [1] Mohammed Y. Wahan, Zhancheng Zhang, Xinmiao Meng*, Ying Gao, Xiaodong Ji. Mechanical behavior of GFRP-bamboo composite shear connections. Construction and Building Materials, 2022, 331: 127333.
  • [2] Daobo Zhang, Xinmiao Meng, Peng Feng, Nan Hu, . Experimental study on loading-induced power generation decline of component-level flexible solar cells. Thin-walled Structures, 2022, 175: 109231.
  • [3] Donghui Zhao, TianQiao Liu, Xiaofeng Lu, Xinmiao Meng*. Experimental and numerical analysis of a novel curved sandwich panel with the pultruded GFRP strip core. Composite Structures, 2022, 288: 115404.
  • [4] Feiyang Xu, Shiqing Xuan, Wei Li, Xinmiao Meng*, Ying Gao. Compressive performance of steel-timber composite L-shaped columns under concentric loading. Journal of Building Engineering, 2022, 48: 103967.
  • [5] Yousef Y. Sewar, Zhancheng Zhang, Xinmiao Meng*, Mohammed Y. Wahan, Hanxiao Qi. Mechanical properties and constitutive relationship of the high-durable parallel strand bamboo. Journal of Renewable Materials, 2022, 10(1): 219-235.
  • [6] Ying Gao, Feiyang Xu, Ye Zhang, Hongda Yang, Xinmiao Meng*. Experimental and numerical study on the lateral torsional buckling of full-scale steel-timber composite beams. Advances in Structural Engineering, 2022, 25(3): 522-540.
  • [7] Xinmiao Meng*, Daobo Zhang, Peng Feng, Nan Hu. Review on mechanical behavior of solar cells for building integrated photovoltaics. Sustainable Structures, 2021, 1(2): 1-19.
  • [8] Xiang Li, Shuaiyu Zhao, Xinmiao Meng*, Xiaodong Ji. Bearing capacity and mechanical behavior of an innovative bamboo fiber-reinforced polymer tendon with U-head. Polymers, 2021, 13(22): 3976.
  • [9] Ying Gao, Shiyi Mei, Xingxia Ma, Xinmiao Meng. Effects of decay on the mechanical properties of nailed joints in light wood frame structure. Forest Products Journal, 2021, 71(1): 46-57.
  • [10] TianQiao Liu, Peng Feng, Yuwei Wu, Shuxin Liao, Xinmiao Meng. Developing an innovative curved-pultruded large-scale GFRP arch beam. Composite Structures, 2021, 256: 113111.
  • [11] Qibin Hu, Ying Gao, Xinmiao Meng, Yue Diao, . Axial compression of steel–timber composite column consisting of H-shaped steel and glulam. Engineering Structures, 2020, 216: 110561.
  • [12] Shi Cheng, Peng Feng, Xinmiao Meng, Zhiyuan Li, Jike Du. Compression behavior of large-scaled cylindrical GFRP chimney liner segments. Composite Structures, 2020, 232: 111543.
  • [13] Peng Xie, Wen Liu, Yucun Hu, Xinmiao Meng, Jiankun Huang. Size effect research of tensile strength of bamboo scrimber based on boundary effect model. Engineering Fracture Mechanics, 2020, 239: 107319.
  • [14] Peng Feng, Xinmiao Meng, Hanqing Zhang. Mechanical behavior of FRP sheets reinforced 3D elements printed with cementitious materials. Composite Structures, 2015, 134(): 331-342.
  • [15] Peng Feng, Xinmiao Meng, Jian-fei Chen, Lieping Ye. Mechanical properties of structures 3D printed with cementitious powders. Construction and Building Materials, 2015, 93: 486-497.
  • [16] Peng Feng, Pan Zhang, Xinmiao Meng, Lieping Ye. Mechanical analysis of stress distribution in a carbon fiber reinforced polymer rod bonding anchor. Polymers, 2014, 6(4): 1129-1143.

International Conference

  • Meng Xinmiao, Feng Peng, Zheng Yi. The application to bridge enclosure system of  FRP curved sandwich panels with foam core. 6th Asia-Pacific Conference on FRP in Structures (APFIS2017), July 19-21, 2017, Singapore.
  • Meng Xinmiao, Feng Peng, Zhang Daobo. Experimental study on the mechanical behavior of FRP curved sandwich panels with foam core [C]. The 8th International Conference on FRP Composites in Civil Engineering (CICE 2016), Dec 14-16, 2016, Hong Kong, China.
  • Meng Xinmiao, Feng Peng, Keller Thomas. Theoretical study on the mechanical behavior of FRP curved sandwich panels with foam core [C]. The 8th International Conference on FRP Composites in Civil Engineering (CICE 2016), Dec 14-16, 2016, Hong Kong, China.
  • Meng Xinmiao, Feng Peng. Experimental study on mechanical behavior of FRP reinforced 3D printed elements [C]. 18th International Conference on Composite Structures (ICCS18), 2015, Lisbon, Portugal.