1.浙江省“尖兵领雁+X”科技计划, 2025C02209, 低碳智能建筑与基础设施建设关键技术与装备研发-基于柔性用能调控的既有建筑光伏一体化设计、构造关键技术与装备研发, 2025/01-2026/12, 50万元, 主持,在研.

2. 浙江省自然基金项目，LQ20E080005,纤维/水泥改性铁尾矿粉冻融单轴受压性能及细观损伤机理，2020/01-2022/12，9万元，主持，结题.

3. 岩土力学与堤坝工程教育部重点实验室开放基金，2019020，纤维/水泥改性泥浆无侧限抗压特性时间效应及微观机理，2020/01-2021/12，1万元，主持，结题.

4 浙江省住房和城乡建设厅科研项目，2016K130，建筑废弃泥浆脱水处理及资源化应用关键技术研究，2017/01-2018/12，8万元，主持，结题.

5. 国家自然科学基金面上项目，41772311，纳米材料改性滨海水泥土的小应变特性与微观机理，2018/01-2021/12，55万元，参与，结题.

6. 岩土力学与工程国家重点实验室开放研究课题，Z017013,复杂条件下纤维改性水泥土无侧限抗压特性及微观机理，2018/01-2019/12，5万元，参与，结题.

7. 浙江省高校虚拟仿真实验教学项目，装配式建筑节点施工质量检测虚拟仿真实验项目，2021-2022，主持，结题.

8. 浙江省线上线下一流课程，建筑工程结构检测，2022，主持.

[1] Ping Jiang, Yewen Chen, Wensheng Wang, Jiandong Yang, Haoyun Wang, Na Li, Wei Wang*. Flexural behavior evaluation and energy dissipation mechanisms of modified iron tailings powder incorporating cement and fibers subjected to freeze-thaw cycles, Journal of Cleaner Production, 2022, 35, 131527.

[2] Ping Jiang, Zhichao Wang, Wei Wang*, Na Li, Yanfei Yu, Cuihong Li, Erlu Wu, Shaoyun Pu. Interfacial strength characteristics between modified iron tailings and profiled fibers under dry-wet and freeze-thaw environments. Construction and Building Materials, 2023, 403: 133016.

[3] Ping Jiang, Zhichao Wang, Wei Wang*, Na Li, Xinjiang Song, Shimeng Yu. Study on the effect of stress path on the deformation and non-coaxial characteristics of modified iron tailings. Construction and Building Materials, 2024, 422:135803.

[4] Ping Jiang, Wenqian Zheng , Wei Wang, Yanbo Yao, Na Li*. Strength Characteristics and Microscopic Mechanism of Polymer MDI Modified Waste Slurry with Different Water Binder Ratios. Construction and Building Materials, 2025, 472:140817.

[5] Jiang P, Fu Y, Wang W*, Zhou X, Li N, Tao H. The deformation characteristics of modified lightweight expanded polystyrene soils under cyclical loading. Soil Dynamics and Earthquake Engineering, 2025, 188: 109074.

[6]Jiang P, Fu Y, Chen L, Wang W, Li N*, Qian B. Mechanical properties of SCA modified EPS lightweight soil and modification mechanism[J]. Geosynthetics International, 2025: 1-23.

[7] Ping Jiang,, Xingchen Hu,, Na Li , Wei Wang* , De Zhang, Haihua Zhan, Ru Song, Song Yang. Study on the electrical conductivity, strength properties and failure modes of concrete incorporating carbon ffbers and iron tailings. Journal of Materials Research and Technology, 2025,36:522-538.

[8] Ping Jiang , Fuping Wang , Na Li* , Wei Wang , Baozhong Wang , Pengfei Yu. Polyurethane foam lightweight concrete: Preparation, CO2 fixation properties and mechanism. Journal of CO2 Utilization, 2025, 97:103109.

[9] Ping Jiang , Fuping Wang , Wei Wang , Na Li*, Shimeng Yu. The absorption effect and mechanism of graphene oxide removal from aqueous solution by basalt stone power, Arabian Journal of Chemistry, 2024, 17:105805.

[10] Ping Jiang, Zhichao Wang, Na Li, Xinjiang Song, Yewen Chen, Wei Wang*. Cumulative deformation and non-coaxial characteristics of fiber and cement-modified iron tailings under the rotation of principal stress. Transportation Geotechnics, 2023, 43:101114.

[11]Ping Jiang , Wenqian Zheng , Lin Zhou , Na Li, Wei Wang*. Laboratory characterization of soft clay mixed with EPS, lime, fy ash, and sodium silicate, Bulletin of Engineering Geology and the Environment, 2023, 82:302.

[12] Ping Jiang, Xingchen Hu, Wei Wang, Yewen Chen, Longlin Wang, Na Li*. Mechanical Properties and Energy Dissipation of Fiber-Modified Iron Tailings under Triaxial Stress,International Journal of Geomechanics, ASCE, 2024, 24(12): 06024022.

[13] Ping Jiang, Yewen Chen, Na Li, Wei Wang*. Cumulative deformation and damage evolution of fiber cement-modified iron tailings under cyclic load. International Journal of Geomechanics, 2023, 23(4): 04023004.

[14] Jiang P, Zhou X, Wang W*, Li N, Huang X, Pu S, Asefa M B. Effect and mechanism of freeze–thaw cycles on static and dynamic characteristics of expandable polystyrene lightweight soil[J]. International Journal of Geomechanics, 2024, 24(2):04023271.

[15] Jiang P, Chen L, Li N, Qian J, Wang W*. Study on the mechanical properties of fiber-modified iron tailings stabilized by lime and fly ash based on energy analysis. Case Studies in Construction Materials, 2022, 17: e01638.

[16]Ping Jiang, Yewen Chen, Na Li*, Lin Zhou, Shaoyun Pu, Wei Wang. Strength properties and microscopic mechanism of lime and fly ash modiffed expandable poly styrene lightweight soil reinforced by polypropylene fiber, Case Studies in Construction Materials, 2022, 17: e01250.

[17] 姜屏,王智超,肖景平,王伟*,李娜,陈业文,吴二鲁.不同循环加载模式下改性铁尾矿砂的变形特性研究，岩土工程学报，2023，45(S2)：104-109.

[18] 姜屏, 周琳, 毛天豪, 袁俊平, 王伟, 李娜*.水泥改性废弃泥浆损伤模型及时间效应.吉林大学学报(工学版), 2022, 52(12): 2874-2882.

[19] 姜屏，陈业文，陈先华*，张伟清，李娜，王伟，改性石灰土在干湿和冻融循环下的无侧限抗压性能，吉林大学学报(工学版), 2023, 53(6): 1809-1818.

[20] 姜屏，杨建冬，李娜*，钱健.纤维改性水泥稳定铁尾矿的无侧限抗压性能研究，复合材料科学与工程，2021, 8, 73-79.

[1]组合式隔水装置，2021,1/7.

[2]一种基于多场耦合的建筑泥浆脱水工艺，2021,1/6

[3]一种榫卯式内接预制桩及其施工方法，2019,1/7.

[4]一种并联式智能加压三轴试样制样工艺，2020,1/5

[5]一种斜向排水软土快速固结方法及装置，2017,1/6.

[6]一种应用于多年冻土路基边坡的遮阳系统，2018,1/6.

[7]城市道路智能排水系统，2015,1/1.

[8]一种竖向分层抽水软土快速固结方法及装置，2019,1/5.

[9]一种预制空心板泡沫堵头联动填充装置，2022,1/5.