王冀鵬    Prof. Ji-Peng WANG

博士，教授，博士生導師，水利工程系主任，國家高層次青年人才，山東省泰山學者特聘專家，山東大學國際合作聯(lián)絡教授。主要從事生態(tài)巖土工程、水工巖土多相滲流、工程智慧運維等方面科研工作。主持國家及省部級項目多項。以第一或通訊作者在本領域頂級期刊發(fā)表論文40余篇，授權國內(nèi)外發(fā)明專利15項，授權軟件著作權7項，主編省級標準1部，研究成果獲2023年度中國分析測試協(xié)會科學技術獎一等獎及2024年第49屆日內(nèi)瓦國際發(fā)明展金獎。

聯(lián)系方式：ji-peng.wang@sdu.edu.cn

教育經(jīng)歷：

2006-2010       四川大學，水利水電工程專業(yè)，學士

2009-2010       英國諾丁漢大學，土木工程，碩士（一等榮譽學位）

2010-2015       英國諾丁漢大學，巖土工程，博士

工作經(jīng)歷：

2011-2015       英國諾丁漢大學，教學助理（兼職）

2015-2018       比利時布魯塞爾自由大學，博士后研究員

             比利時國家科學基金（FNRS）資助。合作單位：比利時根特大學、法國格勒諾布爾大學、英國利茲大學

2018至今         山東大學，教授、博導

研究方向：

1.     微-宏觀巖土力學：巖土材料高精度四維CT成像分析、多相巖土體水力及力學微宏觀特性、植被與土的相互作用、邊坡生態(tài)防護技術

2.     水工結構工程：土石壩與抗?jié)B加固、水工巖土體穩(wěn)定、生態(tài)河道

3.     工程智慧運維技術：無人機地質災害檢測與預警、無人機基礎設施表觀與內(nèi)部病害智慧檢測、基礎設施空天地一體化智慧運維平臺

4.     土遺址與磚石質文物保護：夯土遺址的劣化機理與保護措施、生物材質保護與修復磚石質文物技術

每年從水利工程（學碩）及土木水利（水利工程方向專碩）招收碩士研究生2-3名、從巖土工程專業(yè)招收博士研究生1名。

科研項目：

2024-2028       山東省政府泰山學者特聘專家科研項目 (主持)

2024-2027       山東省政府中外合作項目：多源快速CT成像分析技術 (主持)

2024-2027       企業(yè)委托-水庫潰堤潰壩模擬分析 (主持)

2024-2025       企業(yè)委托-城市河道生態(tài)護岸關鍵技術研究 (主持)

2024-2025       企業(yè)委托-高原公路邊坡災害多源監(jiān)測與智慧預警研究 (主持)

2022-2024       國家重點研發(fā)計劃政府間國際科技創(chuàng)新合作專項, “氣候變化背景下植被與土的相互作用” (主持)

2021-2026       國家海外引進高層次青年人才項目, “多相巖土材料微宏觀力學” (主持)

2021-2024       企業(yè)委托-基于無人機的基礎設施智慧運維技術項目 (主持)

2021-2022       中國國家自然科學基金, 國際合作與交流項目, “基于微觀尺度毛細作用和交界面張力效應的非飽和土力學研究” (主持)

2020-2022       中國國家自然科學基金, “非飽和土中氣固液三相交界面的微觀作用機理研究” (主持)

2020-2022       無錫市鴻山（國家）考古遺址公園, “邱承墩大墓變形監(jiān)測” (主持)

2019-2024       山東省政府泰山學者青年專家科研項目 (主持)

學術兼職：

?  國際土力學與巖土工程學會會員

?  中國水利學會高級會員

?  中國大壩工程學會大壩安全與韌性提升專委會委員

?  公共安全科學技術學會基礎設施智能建造與智慧運維專委會委員

?  中國國際科技促進會低空經(jīng)濟分會委員

?  Géotechnique、Water Resources Research、Acta Geotechnica、Powder Technology、Journal of Hydrology、Journal of Engineering Mechanics等十余個著名國際期刊審稿專家

代表論文：

[1]      欒紀元, 葛尚奇, 王冀鵬* (2025). 基于動態(tài)CT掃描的非飽和顆粒材料水-力特性微觀試驗研究. 巖土工程學報.

[2]      李現(xiàn)偉, 王冀鵬*, 高旭光,等(2025).不同類型植被覆蓋條件下土體非飽和水力特性試驗研究.中國水土保持.

[3]      Wang JP*, Sha, JF, Ge SQ, Gao XG, Dadda A (2024) Three-dimensional numerical modeling of soil-roots system based on X-ray computed tomography: Hydraulic effects study. RHIZOSPHERE, 32, 100975.

[4]      Gao XG, Wang JP*, Ge SQ, Su SK, Bai MH, Francois B (2024) Investigation of canopy interception characteristics in slope protection grasses: A laboratory experiment. SCIENCE OF THE TOTAL ENVIRONMENT, 948, 174731.

[5]      Ge SQ, Jiang WH, Wang JP*, Feng GH, Zheng LW, Xie XY (2024) Coupled model for electro-osmosis consolidation and ion transport considering chemical osmosis in saturated clay soils. INTERNATIONAL JOURNAL FOR NUMERICAL AND ANALYTICAL METHODS IN GEOMECHANICS, 48(14): 3455-3474.

[6]      Wang JP, Bai MH, Tan YR, Ge SQ, Gao XG, Dadda A, Shen JY, Zhang J (2024) Effect of vegetation on unsaturated soil hydraulic and the slope stability under rainfall. RHIZOSPHERE, 31, 100933.

[7]      Wang SH, Wang JP*, Ge SQ, Li XW, Dadda A (2024) Numerical Investigation of Funicular Liquid Bridges between Three Spherical Grains in a Bidisperse Particulate System. LANGMUIR, 40(24), 12744-12754.

[8]      Wang JP, Sha JF, Gao XG, Dadda A, Qi M, Ge SQ (2024) Experimental investigation of the microscopic interaction mechanism between sand and tall fescue roots by using X-ray microtomography. ACTA GEOTECHNICA, 19(3), 1529-1554.

[9]      Wang JP, Li MC, Qi M, Ge SQ, Dadda A* (2024). Micro-macro investigation on bio-cemented sand under different grouting saturation: an effective enhancement method. GEOMECHANICS FOR ENERGY AND THE ENVIRONMENT, (12): GETE-D-23-00373.

[10]  邱煥翔, 翟虎, 王冀鵬*,等 (2024). 基于無人機航攝的地質踏勘及風險評估. 科學技術與工程.

[11]  Wang JP*, Liu TH, Wang SH, Luan JY, Dadda A (2023) Investigation of porosity variation on water retention behaviour of unsaturated granular media by using pore scale Micro-CT and lattice Boltzmann method. JOURNAL OF HYDROLOGY, 626: 130161.

[12]  欒紀元, 王冀鵬* (2023). 基于4D顯微成像的非飽和顆粒土微觀力學與滲流試驗研究. 巖土力學.

[13]  Li MC, Luan JY, Gao XG, Wang JP*, Dadda A (2023) A micro-investigation on water bridge effects for unsaturated granular materials with constant water content by discrete element method. PARTICUOLOGY, 83: 50-62.

[14]  Song JL, Yamauchi H, Oguchi T, Ogura T, Nakamura Y, Wang JP* (2023) Effects of web geographic information system (GIS) technology and curriculum approaches on education for disaster risk reduction. NATURAL HAZARDS AND EARTH SYSTEM SCIENCES, 23(11), 3617-3634.

[15]  Wang JP*, Luan JY, Gao XG, Liu TH, Andò E, Fran?ois B (2022) A micro-investigation of unsaturated sand in mini-triaxial compression based on micro-CT image analysis. ACTA GEOTECHNICA, 17(11): 4799-4821.

[16]  Gao XG, Sha JF, Luan JY, Li MC, Wang JP* (2022) A triple-source CT system for micro-scale investigation of geological materials: A simulation study. APPLIED RADIATION AND ISOTOPES, 190.

[17]  Wang JP*, Fran?ois B, Lambert P (2020) From Basic Particle Gradation Parameters to Water Retention Curves and Tensile Strength of Unsaturated Granular Soils. INTERNATIONAL JOURNAL OF GEOMECHANICS, 20(6).

[18]  Cui XZ, Zhang XN, Wang JP*, Zhang J, Qi H, Li J (2020) X-ray CT based clogging analyses of pervious concrete pile by vibrating-sinking tube method. CONSTRUCTION AND BUILDING MATERIALS, 262.

[19]  Xiao Q, Wang JP (2020) CFD–DEM simulations of seepage-induced erosion. WATER,12(3), 678.

[20]  Wang JP*, Lambert P, De Kock T, Cnudde V, Fran?ois B (2019) Investigation of the effect of specific interfacial area on strength of unsaturated granular materials by X-ray tomography. ACTA GEOTECHNICA, 14(5): 1545-1559.

[21]  Wang JP*, Andò E, Charrier P, Salager S, Lambert P, Fran?ois B (2019) Micro-scale investigation of unsaturated sand in mini-triaxial shearing using X-ray CT. GEOTECHNIQUE LETTERS, 9(4): 269-277.

[22]  Wang JP*, Zeng GH, Yu HS (2019) A DEM investigation of water-bridged granular materials at the critical state. COMPUTATIONAL PARTICLE MECHANICS, 6(4): 637-655.

[23]  Wang JP, Zhuang PZ, Luan JY, Liu TH, Tan YR, Zhang J (2019) Estimation of unsaturated hydraulic conductivity of granular soils from particle size parameters. WATER, 11(9), 1826.

[24]  Wang JP*, Li X, Yu HS (2018) A micro-macro investigation of the capillary strengthening effect in wet granular materials. ACTA GEOTECHNICA, 13(3): 513-533.

[25]  Wang JP*, Hu N, Fran?ois B, Lambert P (2017) Estimating water retention curves and strength properties of unsaturated sandy soils from basic soil gradation parameters. WATER RESOURCES RESEARCH, 53(7): 6069-6088.

[26]  Wang JP*, Fran?ois B, Lambert P (2017) Equations for hydraulic conductivity estimation from particle size distribution: A dimensional analysis. WATER RESOURCES RESEARCH, 53(9): 8127-8134.

[27]  Wang JP*, Gallo E, Fran?ois B, Gabrieli F, Lambert P (2017) Capillary force and rupture of funicular liquid bridges between three spherical bodies. POWDER TECHNOLOGY, 305: 89-98.

[28]  Wang JP*, Li X, Yu HS (2017) Stress-Force-Fabric Relationship for Unsaturated Granular Materials in Pendular States. JOURNAL OF ENGINEERING MECHANICS, 143 (9).

[29]  Wang JP* (2017) Force Transmission Modes of Non-Cohesive and Cohesive Materials at the Critical State. MATERIALS, 10 (9).

[30]  Wang JP*, Li X, Yu HS (2015) A micromechanical interpretation of the capillary effect of unsaturated granular material in a pendular state. COMPUTER METHODS AND RECENT ADVANCES IN GEOMECHANICS, 1563-1568.

發(fā)明專利：

[1]      王冀鵬; 李現(xiàn)偉; 高旭光等.一種適用于邊坡自動夯實及削坡的試驗裝置及方法:202311661376.2.2024-03-01. (發(fā)明專利, 已公開)

[2]      王冀鵬; 王劭涵; 欒紀元等; 適用于CT掃描的小型巖土材料多場滲流裝置及試驗方法:202410492591.2.2024-06-07. (發(fā)明專利, 已公開)

[3]      王冀鵬; 蘇帥康; 申靜怡等; 非飽和法微生物膠結生物磚制磚方法、裝置及生物磚:202410596597.4. 2024-12-27. (發(fā)明專利, 已授權)

[4]      王冀鵬; 邱煥翔; 翟虎等; 一種混凝土基礎設施結構裂縫機載檢測裝置及工作方法:202410715082.1.2024-08-02. (發(fā)明專利, 已授權)

[5]      王冀鵬; 康子健; 高旭光; 李現(xiàn)偉; 邱煥翔; 柏沫涵; 基于PIV技術的根系加筋土大型剪切試驗裝置及方法:202411314480.9.2025-01-10. (發(fā)明專利, 已授權)

[6]      王冀鵬; 欒紀元; 王劭涵; 商海潮. 適用CT快速三維成像的多場控制射流試驗裝置及方法:202510191612.1. 2025-04-15. (發(fā)明專利, 已公開)

[7]      王冀鵬; 馬永健; 張安金; 高旭光; 邱煥翔; 蘇帥康; 一種便于深孔安裝基質吸力傳感器的裝置及方法, 2023-09-12,中國, ZL202311006779.3. (發(fā)明專利, 已授權)

[8]      王冀鵬; 高旭光; 欒紀元; 劉太衡; 沙俊鋒; 齊萌; 一種工業(yè)CT快速掃描系統(tǒng)及方法, 2022-11-22, 中國, ZL202110124424.9. (發(fā)明專利, 已授權)

[9]      王冀鵬; 施淑垚; 趙宇翔; 魯嘉祺; 張晉; 崔志聰; 歐陽偉奇; 一種植被邊坡抗沖刷試驗, 2022-08-02, 中國, ZL202110255552.7. (發(fā)明專利, 已授權)

[10]  王冀鵬; 沙俊鋒; 高旭光; 譚怡然; 適用于CT掃描的植物根系吸水過程試驗裝置及方法, 2021-12-10, 中國, ZL202011446926.5. (發(fā)明專利, 已授權)

[11]  王冀鵬; 劉太衡; 譚怡然; 欒紀元; 適用于工業(yè)CT掃描的微型土水特征曲線試驗裝置及方法, 2021-04-09, 中國, ZL201910778457.8. (發(fā)明專利, 已授權)

[12]  王冀鵬; 欒紀元; 劉太衡; 譚怡然; 適用工業(yè)CT掃描的微型溫控非飽和土三軸試驗儀及方法, 2021-01-12, 中國, ZL201910778356.0. (發(fā)明專利, 已授權)

[13]  王冀鵬; 邱煥翔; 翟虎; 陳曉輝; 一種基于無人機的混凝土超聲波探傷裝置及方法, 2023-04-07, 中國, CN115932048A. (發(fā)明專利, 實審)

[14]  王冀鵬; 高旭光; 馬永健; 欒紀元; 李夢晨; 歐陽偉奇; 趙宇翔; 高田田; 吳柳云; 楊柳; 一種草本植被冠層截留監(jiān)測試驗裝置及方法, 2023-02-03, 中國, CN115684495A. (發(fā)明專利, 實審)

[15]  王冀鵬; 齊萌; 沙俊鋒; 高旭光; 適用于CT掃描的微生物誘導碳酸鈣沉淀試驗裝置及方法, 2022-05-30, 中國, CN2022105992722. (發(fā)明專利, 實審)

[16]  Jipeng Wang; Xu-Guang Gao; Ji-Yuan Luan; Tai-Heng Liu; Jun-Feng Sha; Meng-Qi. A Fast Industrial CT Scanning System and Method. 2023-09-22, US 17/505, 082. (美國發(fā)明專利, 已授權)

[17]  Jipeng Wang; Xu-Guang Gao; Ji-Yuan Luan; Tai-Heng Liu; Jun-Feng Sha; Meng-Qi. A Fast Industrial CT Scanning System and Method. 2023-03-14, 2029620. (荷蘭發(fā)明專利, 已授權)

[18]  Jipeng Wang; Jiyuan Luan; Taiheng Liu; Yiran Tan; Miniature temperature-controlled triaxial tester for testing unsaturated soil suitable for micro-computed tomography (ct) scanning and method, 2020-08-26, 美國, US11119056B2. (美國發(fā)明專利, 已授權)

主編標準：

1.     山東省地方標準《公路邊坡生態(tài)防護技術規(guī)范》

2.     山東省團體標準《河道生態(tài)擋墻技術規(guī)范》

科研獲獎：

1.     第49屆日內(nèi)瓦國際發(fā)明展金獎，基于無人機的混凝土缺陷超聲檢測裝備（排名1）

2.     2023年中國分析測試協(xié)會科學技術獎CAIA一等獎，基于原位加載CT掃描的多相巖土材料三維成像分析技術（排名1）

聯(lián)系方式：

通訊地址：山東省濟南市經(jīng)十路17922號山東大學千佛山校區(qū)土建與水利學院圖東樓414

郵編：250061

Prof. Ji-Peng WANG

BEng、MSc、PhD

He is a recipient of the National High-level Young Talent Program, a Distinguished Taishan Scholar of Shandong Province, and an International Cooperation Liaison Professor at Shandong University. He currently serves as the Director of the Department of Hydraulic Engineering at the School of Civil Engineering. His research focuses on eco-geotechnical engineering, multiphase seepage in hydraulic geotechnics, and intelligent operation and maintenance of infrastructure systems.

He has presided over multiple national and provincial-level research projects and published over 40 papers in top-tier journals in his field. He holds 15 authorized invention patents (domestic and international), 7 software copyrights, and has served as the chief editor of one provincial standard. His research achievements have been recognized with the First Prize of the Scientific and Technological Award of the China Association for Instrumental Analysis (2023) and the Gold Medal at the 49th Geneva International Exhibition of Inventions (2024).

Education:

2006-2010       Sichuan University, China, BEng

BEng in Hydraulic and Hydro-electric Engineering.

2009-2010       University of Nottingham, UK, MSc (with distinction)

MSc in Civil Engineering: Geotechnical Engineering

2011-2015       University of Nottingham, UK, PhD

PhD in Geomechanics

Working Experience:

2011-2015       University of Nottingham, Teaching Assistant (part-time)

2015-2018       Université Libre de Bruxelles, Postdoctoral Research Fellow

Funded by FNRS and collaborated with Ghent University and Université Grenoble Alpes (Lab 3SR)

2018-now         Shandong University, Professor

Research Interests:

1.      Micro-macro mechanics of geo-materials: Discrete element numerical simulation and high-performance computing, high-resolution 3D CT imaging and analysis of geotechnical materials, hydraulic and mechanical properties of multiphase geomaterials.

2.      Ecological geotechnical engineering: Hydrological and stability evaluation of unsaturated slopes, soil-vegetation interaction under climate change conditions, UAV-based geological hazard detection and early warning.

3.      Hydraulic Structure Engineering: Seepage control and reinforcement of earth-rock dams, intelligent construction and monitoring of hydraulic structures, digital twin technologies.

Research Projects:

2024–2028       China Taishan Scholars Program (Distinguished Expert), Shandong Provincial Government (PI)

2024–2027       China–Foreign Cooperation Project: Multi-Source Rapid CT Imaging and Analysis Technology, Shandong Provincial Government (PI)

2024–2027       Enterprise-funded Project: Simulation and Analysis of Dam Break and Embankment Failure in Reservoirs (PI)

2024–2025       Enterprise-funded Project: Key Technologies for Ecological Bank Protection in Urban River Channels (PI)

2024-2025       Enterprise-funded Project: Multi-source Monitoring and Intelligent Early Warning of Plateau Highway Slope Disasters (PI)

2023–2026       Sub-project, China National Key R&D Program: Multi-dimensional Visualization Assessment and Demonstration of Post-disaster Tunnel Repair Effectiveness (PI)

2022-2024       China Key R & D plan: “Interactions between plant and soil on the context of climate change” (PI)

2021-2023       China National Young Talent Programme: “Micro-Macro Mechanics of Multi-phase Geomaterials” (PI)

2022-2025       Shandong University-Bowee Vision UAV based Infrastructure Intelligent Operation and Maintenance Research Centre Project (PI)

2021-2022       NSFC-FNRS joint project: “Unsaturated soil mechanics from capillary and surface tension effects at microscale” (PI)

2020-2022       NSFC research project: “A micro-investigation on the air-water-solid interface effects in unsaturated soils” (PI)

2020-2022       Wuxi Hongshan (National) Archaeological Site Park: "Qiuchengdun Tomb Deformation Monitoring" (PI)

2019-2024       Research project of the Taishan Scholar Programme of Shandong Province (Young Professional Programme) (PI)

2018-2023       Research project of the Qilu Young Scholar Programme of Shandong University (PI)

2015-2018       FNRS project: “Micro-Macro study of the capillarity effects on mechanical behaviour of granular materials” (main researcher)

2015-2018       BELSPO IAP project: “Micromanipulation and microfluidics: multiscale applications of surface tension” (involved)

2010-2014       Research project of the Dean’s Scholarship of University of Nottingham (prize holder)

Academic Services:

?  Member of International Society of Soil Mechanics and Geotechnical Engineering

?  Senior Member of Chinese Hydraulic Engineering Society

?  Member of China Civil Engineering Society

?  International Collaboration Ambassador of Shandong University

?  Reviewer for leading international journals including: Géotechnique, Water Resources Research, Acta Geotechnica, Powder Technology, Journal of Engineering Mechanics, International Journal of Geomechanics, Transport in Porous Media, etc.

Selective Publications:

[1]      欒紀元, 葛尚奇, 王冀鵬* (2025). 基于動態(tài)CT掃描的非飽和顆粒材料水-力特性微觀試驗研究. 巖土工程學報.

[2]      李現(xiàn)偉, 王冀鵬*, 高旭光,等(2025).不同類型植被覆蓋條件下土體非飽和水力特性試驗研究.中國水土保持.

[3]      Wang JP*, Sha, JF, Ge SQ, Gao XG, Dadda A (2024) Three-dimensional numerical modeling of soil-roots system based on X-ray computed tomography: Hydraulic effects study. RHIZOSPHERE, 32, 100975.

[4]      Gao XG, Wang JP*, Ge SQ, Su SK, Bai MH, Francois B (2024) Investigation of canopy interception characteristics in slope protection grasses: A laboratory experiment. SCIENCE OF THE TOTAL ENVIRONMENT, 948, 174731.

[5]      Ge SQ, Jiang WH, Wang JP*, Feng GH, Zheng LW, Xie XY (2024) Coupled model for electro-osmosis consolidation and ion transport considering chemical osmosis in saturated clay soils. INTERNATIONAL JOURNAL FOR NUMERICAL AND ANALYTICAL METHODS IN GEOMECHANICS, 48(14): 3455-3474.

[6]      Wang JP, Bai MH, Tan YR, Ge SQ, Gao XG, Dadda A, Shen JY, Zhang J (2024) Effect of vegetation on unsaturated soil hydraulic and the slope stability under rainfall. RHIZOSPHERE, 31, 100933.

[7]      Wang SH, Wang JP*, Ge SQ, Li XW, Dadda A (2024) Numerical Investigation of Funicular Liquid Bridges between Three Spherical Grains in a Bidisperse Particulate System. LANGMUIR, 40(24), 12744-12754.

[8]      Wang JP, Sha JF, Gao XG, Dadda A, Qi M, Ge SQ (2024) Experimental investigation of the microscopic interaction mechanism between sand and tall fescue roots by using X-ray microtomography. ACTA GEOTECHNICA, 19(3), 1529-1554.

[9]      Wang JP, Li MC, Qi M, Ge SQ, Dadda A* (2024). Micro-macro investigation on bio-cemented sand under different grouting saturation: an effective enhancement method. GEOMECHANICS FOR ENERGY AND THE ENVIRONMENT, (12): GETE-D-23-00373.

[10]  邱煥翔, 翟虎, 王冀鵬*,等 (2024). 基于無人機航攝的地質踏勘及風險評估. 科學技術與工程.

[11]  Wang JP*, Liu TH, Wang SH, Luan JY, Dadda A (2023) Investigation of porosity variation on water retention behaviour of unsaturated granular media by using pore scale Micro-CT and lattice Boltzmann method. JOURNAL OF HYDROLOGY, 626: 130161.

[12]  欒紀元, 王冀鵬* (2023). 基于4D顯微成像的非飽和顆粒土微觀力學與滲流試驗研究. 巖土力學.

[13]  Li MC, Luan JY, Gao XG, Wang JP*, Dadda A (2023) A micro-investigation on water bridge effects for unsaturated granular materials with constant water content by discrete element method. PARTICUOLOGY, 83: 50-62.

[14]  Song JL, Yamauchi H, Oguchi T, Ogura T, Nakamura Y, Wang JP* (2023) Effects of web geographic information system (GIS) technology and curriculum approaches on education for disaster risk reduction. NATURAL HAZARDS AND EARTH SYSTEM SCIENCES, 23(11), 3617-3634.

[15]  Wang JP*, Luan JY, Gao XG, Liu TH, Andò E, Fran?ois B (2022) A micro-investigation of unsaturated sand in mini-triaxial compression based on micro-CT image analysis. ACTA GEOTECHNICA, 17(11): 4799-4821.

[16]  Gao XG, Sha JF, Luan JY, Li MC, Wang JP* (2022) A triple-source CT system for micro-scale investigation of geological materials: A simulation study. APPLIED RADIATION AND ISOTOPES, 190.

[17]  Wang JP*, Fran?ois B, Lambert P (2020) From Basic Particle Gradation Parameters to Water Retention Curves and Tensile Strength of Unsaturated Granular Soils. INTERNATIONAL JOURNAL OF GEOMECHANICS, 20(6).

[18]  Cui XZ, Zhang XN, Wang JP*, Zhang J, Qi H, Li J (2020) X-ray CT based clogging analyses of pervious concrete pile by vibrating-sinking tube method. CONSTRUCTION AND BUILDING MATERIALS, 262.

[19]  Xiao Q, Wang JP (2020) CFD–DEM simulations of seepage-induced erosion. WATER,12(3), 678.

[20]  Wang JP*, Lambert P, De Kock T, Cnudde V, Fran?ois B (2019) Investigation of the effect of specific interfacial area on strength of unsaturated granular materials by X-ray tomography. ACTA GEOTECHNICA, 14(5): 1545-1559.

[21]  Wang JP*, Andò E, Charrier P, Salager S, Lambert P, Fran?ois B (2019) Micro-scale investigation of unsaturated sand in mini-triaxial shearing using X-ray CT. GEOTECHNIQUE LETTERS, 9(4): 269-277.

[22]  Wang JP*, Zeng GH, Yu HS (2019) A DEM investigation of water-bridged granular materials at the critical state. COMPUTATIONAL PARTICLE MECHANICS, 6(4): 637-655.

[23]  Wang JP, Zhuang PZ, Luan JY, Liu TH, Tan YR, Zhang J (2019) Estimation of unsaturated hydraulic conductivity of granular soils from particle size parameters. WATER, 11(9), 1826.

[24]  Wang JP*, Li X, Yu HS (2018) A micro-macro investigation of the capillary strengthening effect in wet granular materials. ACTA GEOTECHNICA, 13(3): 513-533.

[25]  Wang JP*, Hu N, Fran?ois B, Lambert P (2017) Estimating water retention curves and strength properties of unsaturated sandy soils from basic soil gradation parameters. WATER RESOURCES RESEARCH, 53(7): 6069-6088.

[26]  Wang JP*, Fran?ois B, Lambert P (2017) Equations for hydraulic conductivity estimation from particle size distribution: A dimensional analysis. WATER RESOURCES RESEARCH, 53(9): 8127-8134.

[27]  Wang JP*, Gallo E, Fran?ois B, Gabrieli F, Lambert P (2017) Capillary force and rupture of funicular liquid bridges between three spherical bodies. POWDER TECHNOLOGY, 305: 89-98.

[28]  Wang JP*, Li X, Yu HS (2017) Stress-Force-Fabric Relationship for Unsaturated Granular Materials in Pendular States. JOURNAL OF ENGINEERING MECHANICS, 143 (9).

[29]  Wang JP* (2017) Force Transmission Modes of Non-Cohesive and Cohesive Materials at the Critical State. MATERIALS, 10 (9).

[30]  Wang JP*, Li X, Yu HS (2015) A micromechanical interpretation of the capillary effect of unsaturated granular material in a pendular state. COMPUTER METHODS AND RECENT ADVANCES IN GEOMECHANICS, 1563-1568.

Invention Patents:

[1]      王冀鵬; 李現(xiàn)偉; 高旭光等; 山東省高速養(yǎng)護集團有限公司.一種適用于邊坡自動夯實及削坡的試驗裝置及方法:202311661376.2.2024-03-01. (發(fā)明專利, 已公開)

[2]      王冀鵬; 王劭涵; 欒紀元等; 適用于CT掃描的小型巖土材料多場滲流裝置及試驗方法:202410492591.2.2024-06-07. (發(fā)明專利, 已公開)

[3]      王冀鵬; 蘇帥康; 申靜怡等; 非飽和法微生物膠結生物磚制磚方法、裝置及生物磚:202410596597.4. 2024-12-27. (發(fā)明專利, 已授權)

[4]      王冀鵬; 邱煥翔; 翟虎等; 一種混凝土基礎設施結構裂縫機載檢測裝置及工作方法:202410715082.1.2024-08-02. (發(fā)明專利, 已授權)

[5]      王冀鵬; 康子健; 高旭光; 李現(xiàn)偉; 邱煥翔; 柏沫涵; 基于PIV技術的根系加筋土大型剪切試驗裝置及方法:202411314480.9.2025-01-10. (發(fā)明專利, 已授權)

[6]      王冀鵬; 欒紀元; 王劭涵; 商海潮. 適用CT快速三維成像的多場控制射流試驗裝置及方法:202510191612.1. 2025-04-15. (發(fā)明專利, 已公開)

[7]      王冀鵬; 馬永健; 張安金; 高旭光; 邱煥翔; 蘇帥康; 一種便于深孔安裝基質吸力傳感器的裝置及方法, 2023-09-12,中國, ZL202311006779.3. (發(fā)明專利, 已授權)

[8]      王冀鵬; 高旭光; 欒紀元; 劉太衡; 沙俊鋒; 齊萌; 一種工業(yè)CT快速掃描系統(tǒng)及方法, 2022-11-22, 中國, ZL202110124424.9. (發(fā)明專利, 已授權)

[9]      王冀鵬; 施淑垚; 趙宇翔; 魯嘉祺; 張晉; 崔志聰; 歐陽偉奇; 一種植被邊坡抗沖刷試驗, 2022-08-02, 中國, ZL202110255552.7. (發(fā)明專利, 已授權)

[10]  王冀鵬; 沙俊鋒; 高旭光; 譚怡然; 適用于CT掃描的植物根系吸水過程試驗裝置及方法, 2021-12-10, 中國, ZL202011446926.5. (發(fā)明專利, 已授權)

[11]  王冀鵬; 劉太衡; 譚怡然; 欒紀元; 適用于工業(yè)CT掃描的微型土水特征曲線試驗裝置及方法, 2021-04-09, 中國, ZL201910778457.8. (發(fā)明專利, 已授權)

[12]  王冀鵬; 欒紀元; 劉太衡; 譚怡然; 適用工業(yè)CT掃描的微型溫控非飽和土三軸試驗儀及方法, 2021-01-12, 中國, ZL201910778356.0. (發(fā)明專利, 已授權)

[13]  王冀鵬; 邱煥翔; 翟虎; 陳曉輝; 一種基于無人機的混凝土超聲波探傷裝置及方法, 2023-04-07, 中國, CN115932048A. (發(fā)明專利, 實審)

[14]  王冀鵬; 高旭光; 馬永健; 欒紀元; 李夢晨; 歐陽偉奇; 趙宇翔; 高田田; 吳柳云; 楊柳; 一種草本植被冠層截留監(jiān)測試驗裝置及方法, 2023-02-03, 中國, CN115684495A. (發(fā)明專利, 實審)

[15]  王冀鵬; 齊萌; 沙俊鋒; 高旭光; 適用于CT掃描的微生物誘導碳酸鈣沉淀試驗裝置及方法, 2022-05-30, 中國, CN2022105992722. (發(fā)明專利, 實審)

[16]  Jipeng Wang; Xu-Guang Gao; Ji-Yuan Luan; Tai-Heng Liu; Jun-Feng Sha; Meng-Qi. A Fast Industrial CT Scanning System and Method. 2023-09-22, US 17/505, 082. (美國發(fā)明專利, 已授權)

[17]  Jipeng Wang; Xu-Guang Gao; Ji-Yuan Luan; Tai-Heng Liu; Jun-Feng Sha; Meng-Qi. A Fast Industrial CT Scanning System and Method. 2023-03-14, 2029620. (荷蘭發(fā)明專利, 已授權)

[18]  Jipeng Wang; Jiyuan Luan; Taiheng Liu; Yiran Tan; Miniature temperature-controlled triaxial tester for testing unsaturated soil suitable for micro-computed tomography (ct) scanning and method, 2020-08-26, 美國, US11119056B2. (美國發(fā)明專利, 已授權)

Standards Led:

1. Provincial Standard of Shandong: Technical Specifications for Ecological Protection of Highway Slopes

2. Group Standard of Shandong: Technical Specifications for Ecological Retaining Walls in River Channels

Scientific Awards:

1. Gold Medal, 49th Geneva International Exhibition of Inventions – Ultrasonic Detection Equipment for Concrete Defects Based on Drones (Ranked 1st)

2. First Prize, 2023 CAIA Award for Science and Technology, China Association for Instrumental Analysis – Three-Dimensional Imaging and Analysis Technology for Multiphase Geomaterials Based on In-situ Loading and CT Scanning (Ranked 1st)

Recruitment Information:

Students (and international students) with qualitative backgrounds in geotechnical engineering, civil engineering, hydraulic engineering and other relevant areas are welcomed to apply for master, PhD and postdoctoral positions!

Contacts:

Address: Tudong Building 414, School of Civil Engineering, Shandong University, 17922 Jingshi Road, Jinan 250061, China

Email: ji-peng.wang@sdu.edu.cn  or  ji-peng.wang@outlook.com