科研项目

1. 国家自然科学基金委，青年基金，52108251，"基于非球形颗粒微结构建模的定向钢纤维混凝土扩散性能研究"，2022.01-2024.12，在研，主持

2. 江苏省土木工程材料重点实验室，开放基金，202203，"基于多形状多尺寸颗粒堆积建模的复杂凸形骨料周围ITZ渗流特性及混凝土扩散性能定量表征"，2023.01-2023.12，已结题，主持。

3. 河北省自然科学基金委，青年基金，E2021203141，"基于二元颗粒体系内界面渗流效应的混凝土扩散性能研究"，2021.01-2023.12，已结题，主持。

4. 国家自然科学基金委，面上项目，51878152，"基于非球形颗粒堆积结构的非饱和水泥基复合材料反应传输性能建模"，2019.01-2022.12，已结题，参与。

5. 中铁二十一局集团有限公司，校企合作项目，8512000235，"干寒盐渍土地区混凝土抗腐蚀性外包防腐材料性能变化机理及施工工艺"，2018.05-2020.04，已结题，参与。

6. 国家自然科学基金委，面上项目，51578208，"定向钢纤维混凝土增强机理及力学模型研究"，2016.01-2019.12，已结题，参与。

7. 中国科技部，973项目，2015CB655102，"严酷环境下混凝土材料与结构长寿命的基础研究"第二课题"严酷环境下混凝土材料损伤演变与性能劣化"，2015.01-2019.12，已结题，参与。

8. 国家自然科学基金委，中英国际（地区）合作与交流项目，51461135001，"生态低碳高耐久碱激发混凝土科学设计方法与应用基础研究"，2015.01-2017.12，已结题，参与。

授课情况

1. 工程结构荷载与可靠度设计原理（本科生）: 2021-

2. 土木工程材料（本科生）: 2021-

3. 混凝土材料的模型化与定量表征（研究生）: 2021-

期刊论文

1. Jianjun Lin*, Sibo Wang, Yi Sun, Qingxin Zhao*, Huisu Chen*, Mingqi Li. Fiber orientation effect on the interfacial properties of aligned fibrous materials: Percolation threshold and effective fraction of soft interfaces. Materials Today Communications, 2025, 44: 111946. (SCI, Q2区)

2. Mingqi Li, Longbang Qing*, Huisu Chen*, Jianjun Lin. Insights into pore tortuosity and diffusivity of cement paste via hydration model with superovoidal cement particles. Journal of Building Engineering, 2025, 99: 111654. (SCI, Q1区)

3. Hui Yuan, Huisu Chen*, Mohammad Iqbal Khan*, Zhong Lv, Jianjun Lin. Analytical models for crack-hitting probability and crack-healing efficiency by linear capsules in a material with parallelogram crack network. Materials Today Communications, 2024, 41: 111048. (SCI, Q2区)

4. Mingqi Li, Longbang Qing*, Huisu Chen*, Jianjun Lin, Hui Yuan, Ke Cao. Pore tortuosity and permeability of particulate composites with random packing superovoidal particles. Powder Technology, 2024, 445: 120129. (SCI, Q1区)

5. Jianjun Lin*, Yue Wang, Mingqi Li, Huisu Chen*, Haiying Cao, Chao Jing. Continuum percolation of the realistic nonuniform ITZs in 3D polyphase concrete systems involving the aggregate shape and size differentiation. Science and Engineering of Composite Materials, 2024, 31: 20220237. (SCI, Q4区)

6. 郭昊, 王思博, 孙轶, 王宝山, 林建军*. 刚性边界对磁场作用下的二维短钢纤维空间取向的影响. 中国科技论文在线, 2024, 1-8.

7. Yekai Yang, Pengyuan Lu, Zhongxian Liu*, Liang Dong, Jianjun Lin, Ting Yang, Quanchang Ren, Chengqing Wu*. Effect of steel fibre with different orientations on mechanical properties of 3D-printed steel-fibre reinforced concrete: Mesoscale finite element analysis. Cement and Concrete Composites, 2024, 150: 105545. (SCI, Q1区)

8. 王宝山, 郭昊, 林建军*. 基于多边形与椭圆掺杂体系下多相复合混凝土中ITZ渗流性能数值分析. 中国科技论文在线, 2024, 1-9.

9. Mingqi Li, Longbang Qing*, Huisu Chen*, Jianjun Lin. Insight into the coupling effect of tortuosity and percolation on the permeability of overlapping ovoidal particle systems. Powder Technology, 2024, 432: 119120. (SCI, Q1区)

10. Jianjun Lin*, Qingxin Zhao, Huisu Chen*, Mingqi Li, Lili Yuan. A numerical framework for the ITZ percolation, effective fraction and diffusivity of concrete systems considering the nonuniform ITZ. Journal of Building Engineering, 2023, 77: 107429. (SCI, Q1区)

11. Jianjun Lin*, Qingxin Zhao, Huisu Chen*, Caihong Xue*, Mingqi Li. The fraction and percolation of soft interfaces in granular composites containing polyhedral and ovoidal fillers: A theoretical and numerical study. Advanced Powder Technology, 2023, 34: 104057. (SCI, Q1区)

12. Jianjun Lin*, Qingxin Zhao, Huisu Chen, Caihong Xue, Mingqi Li, Lili Yuan. A numerical study on the spatial orientation of aligning fibrous particles in composites considering the wall effect. Science and Engineering of Composite Materials, 2023, 30: 20220195. (SCI, Q4区)

13. Jianjun Lin*, Qingxin Zhao, Huisu Chen*, Mingqi Li, Lili Yuan. A Numerical Study of ITZ Percolation in Polyphase Concrete Systems Considering the Synergetic Effect of Aggregate Shape- and Size-Diversities. Materials, 2023, 16: 2525. (SCI, Q2区)

14. Mingqi Li, Huisu Chen*, Longbang Qing*, Jianjun Lin. Generalized implicit solution of ITZ percolation threshold and its effect on the diffusivity of concrete: Influence of aggregate shape- and size-polydispersities. International Journal of Heat and Mass Transfer, 2023, 200: 123514. (SCI, Q1区)

15. Mingqi Li, Longbang Qing*, Huisu Chen, Wenxiang Xu, Jianjun Lin. Diffusivity of porous media considering the coupling influence of pore shape- and size-polydispersities on the percolation: Theoretical and numerical studies. Computer Methods in Applied Mechanics and Engineering, 2023, 404: 115830. (SCI, Q1区)

16. Shaobo Sun, Huisu Chen*, Jianjun Lin. A Universal Method for Modeling and Characterizing Non-Circular Packing Systems Based on n-Point Correlation Functions. Materials, 2022, 15: 5991. (SCI, Q1区)

17. Shaobo Sun, Huisu Chen*, Jianjun Lin. Third-Order Effective Properties for Random-Packing Systems Using Statistical Micromechanics Based on a GPU Parallel Algorithm in Fast Computing n-Point Correlation Functions. Materials, 2022, 15: 5799. (SCI, Q1区)

18. Mingqi Li, Huisu Chen*, Xiangyu Li*, Lin Liu*, Jianjun Lin*. Permeability of granular media considering the effect of grain composition on tortuosity. International Journal of Engineering Science, 2022, 174: 103658. (SCI, Q1区)

19. Mingqi Li, Huisu Chen*, Lin Liu, Jianjun Lin, Karim Ullah. Permeability of concrete considering the synergetic effect of crack's shape- and size-polydispersities on the percolation. Construction and Building Materials, 2022, 315: 125684. (SCI, Q1区)

20. Jianjun Lin*, Qingxin Zhao, Huisu Chen*, Zhigang Zhu, Mingqi Li, Dahai Zhao. Insight into the diffusivity of particulate composites considering percolation of soft interphases around hard fillers: From spherical to polyhedral particles. Powder Technology, 2021, 392: 459-472. (SCI, Q1区)

21. Mingqi Li, Huisu Chen*, Jianjun Lin*, Rongling Zhang, Lin Liu. Effects of the pore shape polydispersity on the percolation threshold and diffusivity of porous composites: Theoretical and numerical studies. Powder Technology, 2021, 386: 382-393. (SCI, Q1区)

22. Jianjun Lin*, Huisu Chen*, Qingxin Zhao, Mingqi Li. Statistical analysis of the critical percolation of ITZ around polygonal aggregates in three-phase concrete materials. Physica A: Statistical Mechanics and its Applications, 2021, 572: 125878. (SCI, Q2区)

23. Jianjun Lin, Huisu Chen*, Lin Liu, Rongling Zhang. Impact of particle size ratio on the percolation thresholds of 2D bidisperse granular systems composed of soft superellipses. Physica A: Statistical Mechanics and its Applications, 2020, 544: 123564. (SCI, Q2区)

24. Mingqi Li, Huisu Chen*, Jianjun Lin. Numerical study for the percolation threshold and transport properties of porous composites comprising non-centrosymmetrical superovoidal pores. Computer Methods in Applied Mechanics and Engineering, 2020, 361: 112815. (SCI, Q1区)

25. Mingqi Li, Huisu Chen*, Jianjun Lin, Pietro Lura, Zhigang Zhu. The bias of the interface thickness and diffusivity of concrete comprising Platonic aggregates induced by areal analysis. Powder Technology, 2020, 376: 209-221. (SCI, Q1区)

26. Jianjun Lin, Huisu Chen*, Lin Liu*. Impact of polydispersity of particle shape and size on percolation threshold of 3D particulate media composed of penetrable superellipsoids. Powder Technology, 2020, 360: 944-955. (SCI, Q1区)

27. Mingqi Li, Huisu Chen*, Jianjun Lin, Pietro Lura. Areal analysis induced bias on interface thickness around ovoidal particles. Construction and Building Materials, 2020, 262: 120583. (SCI, Q1区)

28. Mingqi Li, Huisu Chen*, Jianjun Lin. Efficient measurement of the percolation threshold for random systems of congruent overlapping ovoids. Powder Technology, 2020, 360: 598-607. (SCI, Q1区)

29. Jianjun Lin, Wulong Zhang, Huisu Chen*, Rongling Zhang, Lin Liu*. Effect of pore characteristic on the percolation threshold and diffusivity of porous media comprising overlapping concave-shaped pores. International Journal of Heat and Mass Transfer, 2019, 138: 1333-1345. (SCI, Q1区)

30. Jianjun Lin, Huisu Chen*. Measurement of continuum percolation properties of two- dimensional particulate systems comprising congruent and binary superellipses. Powder Technology, 2019, 347: 17-26. (SCI, Q1区)

31. Jianjun Lin, Huisu Chen*, Rongling Zhang, Lin Liu*. Characterization of the wall effect of concrete via random packing of polydispersed superball-shaped aggregates. Materials Characterization, 2019, 154: 335-343. (SCI, Q1区)

32. Jianjun Lin, Huisu Chen*. Lattice Boltzmann simulation of fluid flow through random packing beds of Platonic particles: Effect of particle characteristics. Particuology, 2019, 47: 41-53. (SCI, Q2区)

33. Jianjun Lin, Huisu Chen*. Effect of particle morphologies on the percolation of particulate porous media: A study of superballs. Powder Technology, 2018, 335: 388-400. (SCI, Q1区)

34. Jianjun Lin, Huisu Chen*, Wenxiang Xu*. Geometrical percolation threshold of congruent cuboidlike particles in overlapping particle systems. Physical Review E, 2018, 98: 012134. (SCI, Q1区)

35. Huisu Chen*, Zhigang Zhu, Jianjun Lin, Wenxiang Xu, Lin Liu*. Numerical modeling on the influence on particle shape on ITZ’s microstructure and macro-properties of cementitious composites: A critical review. Journal of Sustainable Cement-Based Materials, 2018, 7(4): 248-269. (SCI, Q1区)

36. Jianjun Lin, Huisu Chen*, Zhong Lv, Yujiang Wang. Analytical solution on dosage of self-healing capsules in materials with two-dimensional multi-shaped crack patterns. Science and Engineering of Composite Materials, 2018, 25(6): 1229-1239. (SCI, Q4区)

37. Jianjun Lin, Huisu Chen*. Continuum percolation of porous media via random packing of overlapping cube-like particles. Theoretical and Applied Mechanics Letters, 2018, 8(5): 299-303. (ESCI)

38. Ru Mu*, Hui Li, Longbang Qing, Jianjun Lin, Quanming Zhao. Aligning steel fibers in cement mortar using electro-magnetic field. Construction and Building Materials, 2017, 131: 309-316. (SCI, Q1区)

39. 慕儒*, 王成, 李辉, 林建军, 赵全明. 单向分布钢纤维增强水泥基复合材料(Ⅲ):断裂性能. 建筑材料学报, 2016, 19(1): 78-82. (EI)

40. 慕儒*,  林建军, 赵全明, 李辉. 单向分布钢纤维混凝土的力学性能研究. 混凝土与水泥制品, 2014, (4): 55-57. (中文核心)

会议论文/学术报告

1. 林建军*, 赵庆新, 陈惠苏, 李明祺.  考虑刚性边界效应影响的电磁定向钢纤维颗粒的空间取向分析. 第七届全国颗粒材料计算力学会议暨第四届计算颗粒技术国际研讨会, 南京, 2024.05.31-2024.06.03. (邀请报告)

2. 王思博, 林建军*, 郭昊, 王宝山. 基于卵球和多面体掺杂体系的颗粒周围软界面层有效含量与渗流性能数值研究. 第七届全国颗粒材料计算力学会议暨第四届计算颗粒技术国际研讨会, 南京, 2024.05.31-2024.06.03.

3. 林建军*, 陈惠苏, 李明祺. 基于二元颗粒体系下骨料几何特征的多样性对ITZ渗流性能的影响分析. 中国计算力学大会2023, 大连, 2023.08.20-2023.08.23. (墙报)

4. 林建军*. 基于非球形颗粒堆积的规则凸形骨料周围ITZ的渗流性能定量表征. 低碳胶凝材料和绿色建材学术研讨会, 秦皇岛, 2023.04.16-2023.04.17. (学术报告)

5. 林建军*, 王宝山, 陈惠苏, 赵庆新, 李明祺. 颗粒复合体系中非球形填料周围软界面层的渗流性能定量表征. 第六届全国颗粒材料计算力学会议, 杭州, 2022.10.21-2022.10.23. 

6. Mingqi Li, Huisu Chen*, Jianjun Lin. Continuum percolation threshold and ionic diffusivity of porous media consisting of asymmetrical ovoidal pores. The 4th International Rilem Conference on Microstructure Related Durability of Cementitious Composites, Hague, Online Meeting, 2021.04.28-2021.04.30. 

7. Jianjun Lin, Huisu Chen*. Characteristics of Platonic particles on the ionic diffusion in granular mortar based on lattice Boltzmann method. The International Symposium on Concrete Modelling, Delft, 2018.08.26-2018.08.29. 

8. Huisu Chen*, Jianjun Lin, Zhigang Zhu. Influence of particle shape on percolation threshold, ITZ thickness and microstructure of cementitious composites. The International Symposium on Concrete Modelling, Delft, 2018.08.26-2018.08.29.

9.  Jianjun Lin, Huisu Chen*. Continuum percolation of porous media via random packing of overlapping cube-like particles. 第四届全国颗粒材料计算力学会议, 厦门, 2018.07.06-2018.07.08. (优秀学生论文)

10. Jianjun Lin, Huisu Chen*. Quantitative characterization of the mesostructure of concrete via random packing of cube-like particles. Proceedings of the 9th international symposium on cement and concrete, 武汉, 2017.11.01-2017.11.03, A139.

11. Huisu Chen*, Zhigang Zhu, Jianjun Lin. Multiscale study on the influence of particle shape on microstructure and transport of Cementitious Composites. Proceedings of the 37th Cement and Concrete Science Conference, London, 2017.09.11-2017.09.12.

12. Huisu Chen*, Zhigang Zhu, Jianjun Lin. Influence of particle shape on ITZ's microstructure and macro-properties of cementitious composites: numerical modeling. Proceedings of the 3rd International Conference on Chemically Activated Materials, Gold Coast, Australia, 2017.08.08-2017.08.11.

13. 陈惠苏*, 林建军, 吕忠. 不同裂纹格局下自愈合胶囊掺量的统计解析模型. 第一届全国可持续混凝土理论与应用技术学术交流会暨纪念同济大学黄蕴元先生诞辰一百周年学术交流会. 蒋正武、吴凯主编, “第一届全国可持续混凝土理论与应用技术学术交流会论文集”, 上海, 2016.05.27-2016.05.29.

14. 慕儒*, 林建军, 李辉, 王成, 赵全明. 单向分布钢纤维混凝土的弯曲韧性. 第十五届全国纤维混凝土学术会议, 天津, 2014.09.19-2014.09.21.

发明专利/软件著作权

1. 林建军, 孙轶. 2025SR0321083. 三维混杂纤维增强砂浆建模软件V1.0 [软件]. 2025.02.24. 中华人民共和国国家版权局. (著作权人：燕山大学)

2. 林建军, 王思博. 2025SR0295615. 基于球形粗陶粒和椭球形细骨料掺杂的三维陶粒混凝土建模系统V1.0 [软件]. 2025.02.20. 中华人民共和国国家版权局. (著作权人：燕山大学)

3. 林建军. 2025SR0202850. 基于磁场驱动效应理论的三维定向纤维增强砂浆体系建模系统V1.0 [软件]. 2025.02.06. 中华人民共和国国家版权局. (著作权人：燕山大学)

4. 林建军, 王思博, 郭昊, 孙轶. 2025SR0143400. 一种基于磁场效应的定向短纤维增强体系模型构建系统V1.0 [软件]. 2025.01.21. 中华人民共和国国家版权局. (著作权人：燕山大学)

5. 林建军, 王思博. 2024SR1211562. 基于不规则多边形和圆形骨料掺杂的二维混凝土建模系统V1.0 [软件]. 2024.08.20. 中华人民共和国国家版权局. (著作权人：燕山大学)

6. 林建军, 孙轶, 王思博, 郭昊. 2024SR0858690. 基于非球形颗粒堆积的三维短纤维增强体系建模系统V1.0 [软件]. 2024.06.24. 中华人民共和国国家版权局. (著作权人：燕山大学)

7. 林建军, 郭昊, 孙轶, 王思博. 2024SR0557129. 二维纤维体系建模系统V1.0 [软件]. 2024.04.24. 中华人民共和国国家版权局. (著作权人：燕山大学)

专著/教材

1. 杜森, 林建军, 张洋洋, 赵德志, 陈正心. 土木工程材料双语简明教程. 北京: 中国建材工业出版社, 2023.

荣誉奖项

1. “第四届全国颗粒材料计算力学会议（CMGM-2018）优秀论文奖”, 2018.07.