王冀鹏   Prof. WANG Ji-Peng

博士、教授、博士生导师

➢  国家海外引进高层次青年人才（中组部海外人才计划）

➢  山东省泰山学者青年专家

➢  金沙js55登陆杰出中青年学者

➢  金沙js55登陆国际合作联络教授

联系方式：ji-peng.wang@sdu.edu.cn

主要研究方向：微宏观岩土力学、生态岩土工程加固技术、无人机基础设施智慧运维、土遗址与砖石质文物保护等。

（For English version go to the end ↓）

教育经历：

2006-2010   四川大学，水利水电工程专业，学士

2009-2010   英国诺丁汉大学，土木工程，硕士 （一等荣誉学位）

2010-2015   英国诺丁汉大学，岩土工程，博士

工作经历：

2011-2015   英国诺丁汉大学，教学助理（兼职）

2015-2018   比利时布鲁塞尔自由大学，博士后研究员

比利时国家科学基金（FNRS）资助。合作单位：比利时根特大学、法国格勒诺布尔大学、英国利兹大学

2018.9-至今 金沙js55登陆，教授、博导

研究方向：

1.     微-宏观岩土力学

·       离散元数值模拟与高性能计算

·       高精度岩土材料三维CT成像分析

·       多相岩土体水力及力学特性

2.     生态岩土工程

·       边坡水文与稳定性评价

·       气候变化条件下植被与土的相互作用

·       微生物诱导碳酸钙沉淀（MICP）加固技术

3.     无人机基础设施智慧运维技术

·       无人机边坡危岩与边坡变形智慧识别与监测

·       无人机水利、交通等基础设施智慧巡检

4.     土遗址与砖石质文物保护

·       夯土遗址的劣化机理与保护措施

·       砖石质文物的修复与保护

每年从水工结构工程及土木水利（水利工程方向）招收硕士研究生2-3名、从岩土工程专业招收博士研究生1名

科研项目：

2022-2024 国家重点研发计划 “气候变化背景下植被与土的相互作用”270万元（国拨100万元） （主持）

2021-2026  国家海外引进高层次青年人才项目 “多相岩土材料微宏观力学” 200万元 （主持）

2021-2024 金沙js55登陆-博远视讯无人机基础设施智慧运维研究中心项目 300万元（主持）

2021-2022  中国国家自然科学基金，国际合作与交流项目，“基于微观尺度毛细作用和交界面张力效应的非饱和土力学研究” 10万元 （主持）

2020-2022  中国国家自然科学基金，“非饱和土中气固液三相交界面的微观作用机理研究” 26.5万元 （主持）

2020-2022 无锡市鸿山（国家）考古遗址公园，“邱承墩大墓变形监测”10万元 （主持）

2019-2024  山东省政府泰山学者青年专家科研项目  50万元 （主持）

2018-2023  金沙js55登陆齐鲁青年学者科研项目  100万元 （主持）

2015-2018  比利时国家科学基金项目：“Micro-Macro study of the capillarity effects on mechanical behaviour of granular materials”  50万欧元  （主研）

2015-2018  比利时联邦科技政策办公室IAP项目：“Micromanipulation and microfluidics: multiscale applications of surface tension”  20万欧元  （参与）

2010-2014  英国诺丁汉大学工学部长卓越奖学金博士研究项目  （主持）

学术兼职：

国际土力学与岩土工程学会会员

中国水利学会高级会员

金沙js55登陆国际合作联络教授

Géotechnique、Water Resources Research、Acta Geotechnica、Powder Technology、Journal of Engineering Mechanics、Transport in Porous Media等十余个著名国际期刊审稿专家

代表论文 (第一或通讯作者*)：

1. Wang, J.-P.*, Luan, J.-Y., Gao, X.-G., Liu, T.-H., Ando, E., and François,      B. 2022. A Micro-Investigation of Unsaturated Sand      in Mini-Triaxial Compression based on Micro-CT Image Analysis, Acta      Geotechnica, 17, 4799–4821.

2. Gao, X.-G., Sha, J.-F., Qi, M., Luan, J.-Y.,      and Liu, T.-H., Wang, J.-P.*, 2022. A triple-source CT system for      micro-scale investigation of geological materials: A simulation study, Applied      Radiation and Isotopes, 190:110510.

3. Wang,      J.-P., Tan, Y.-R., Bai, M.-H., Gao, X.-G., Dadda, A., Zhang, J., 2022. Hydrologic effects of vegetation on slope protection in Yellow      River Basin in China, Plant and Soils, (under review)

4. Luan, J.-Y., Wang,      J.-P.*, Dadda, A., Gao, X.-G., Bai, M.-H., 2022. A miniature triaxial      compression apparatus of unsaturated granular material suits for X-ray      μ-CT scanning system, Experimental Mechanics, (under review)

5. Wang, J.-P.*, François, B., and Lambert, P. 2020. From basic particle      gradation parameters to water retention curves and tensile strength of      unsaturated sandy soils, International Journal of Geomechanics, 20(6):      05020003. doi:10.1061/(ASCE)GM.1943-5622.0001677

6.      Cui X., Zhang X., Wang J.-P.*, 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: 120075.

7.      Wang, J.-P.*, Lambert, P., DeKock, T., Cnudde, V., & François, B., 2019, Investigation of the effect of specific interfacial area on strength of unsaturated granular materials by X-ray tomography image analysis. Acta Geotechnica, 14(5), 1545-1559. doi:10.1007/s11440-019-00765-2

8.      Wang, J.-P.*, Andò, E., Charrier, P., Salager, S., Lambert, P., & François, B., 2019, Micro investigation of unsaturated sand in mini-triaxial shearing using X-ray CT. Géotechnique Letters, 9(4), 269–277. doi: 10.1680/jgele.18.00214.

9.      Wang, J.-P.*, Zeng, G.-H., and Yu, H.-S. 2019. The critical state of wet granular matters with capillary effect: a micromechanical study, Computational Particle Mechanics, 6(4), 637-655. doi:10.1007/s40571-019-00243-2

10. Wang,      J.-P., Zhuang, P.-Z., et al., 2019,      Estimation of unsaturated hydraulic conductivity of granular soils from      particle size parameters, Water, 11(9), 1826.      doi.org/10.3390/w11091826

11. Wang,      J.-P.*, Li, X., and Yu, H.-S., 2018, A      micro-macro investigation of the capillary strengthening effect in wet      granular materials, Acta Geotechnica, 13(3): 513-533, doi: 10.1007/s11440-017-0619-0

12. Wang,      J.-P.*, Hu, N., François, B., and 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, doi:10.1002/2017WR020411

13. Wang,      J.-P.*, François, B., and Lambert, P. 2017. Equations for hydraulic      conductivity estimation from particle size distribution: A dimensional      analysis. Water Resources Research, 53(9): 8127-8134,      doi:10.1002/2017WR020888

14. Wang,      J.-P.*, Gallo, E., François, B., Gabrieli, F.,      and Lambert, P., 2017, Capillary      force and rupture of funicular liquid bridges between three spherical      bodies. Powder Technology, 305: 89–98. doi:10.1016/j.powtec.2016.09.060

15. Wang,      J.-P., Li, X., and Yu, H.-S.*, 2017, Stress-force-fabric      relationship for unsaturated granular materials in pendular states. Journal      of Engineering Mechanics, 143(9), 04017068.      doi:10.1061/(ASCE)EM.1943-7889.0001283

16. Wang,      J.-P.*, 2017, Force Transmission Modes of      Non-Cohesive and Cohesive Materials at the Critical State. Materials,      10(9): 1014. doi:10.3390/ma10091014 

17. Wang, J.-P., Li, X., and Yu, H.S., 2015, A micromechanical interpretation      of the capillary effect of unsaturated granular material in a pendular      state. Computer Methods and Recent Advances in Geomechanics, Taylor      and Francis - Balkema. pp. 1563–1568.

发明专利：

1.       王冀鹏; 高旭光; 栾纪元; 刘太衡; 沙俊峰; 齐萌; 一种三源三探测器结合的工业CT快速扫描系统及方法，2021-01-29，中国，CN202110124424.9    （发明专利，已授权）

2.       王冀鹏; 栾纪元; 刘太衡; 谭怡然; 适用工业CT扫描的微型温控非饱和土三轴试验仪及方法, 2021-01-12, 中国, ZL201910778356.0     (发明专利，已授权)

3.       王冀鹏; 刘太衡; 谭怡然; 栾纪元; 适用于工业CT扫描的微型土水特征曲线试验装置及方法, 2021-04-09, 中国, ZL201910778457.8     (发明专利，已授权)

4.       王冀鹏; 沙俊锋; 高旭光; 谭怡然; 适用于CT扫描的植物根系吸水过程试验装置及方法，2021-12-10，中国，ZL202011446926.5    （发明专利，已授权）

5.       王冀鹏; 齐萌; 沙俊锋; 高旭光; 适用于CT扫描的微生物诱导碳酸钙沉淀试验装置及方法，2022-05-30，中国，CN2022105992722（发明专利，实审）

6.       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, 美国，US11119056B2  （美国发明专利，已授权）

7.       Jipeng Wang; Xu-Guang Gao; Ji-Yuan Luan; Tai-Heng Liu; Jun-Feng Sha; Meng-Qi. A Fast Industrial CT Scanning System and Method. 2021-10-29, 17/505, 082. （美国发明专利，实审）

8.       Jipeng Wang; Xu-Guang Gao; Ji-Yuan Luan; Tai-Heng Liu; Jun-Feng Sha; Meng-Qi. A Fast Industrial CT Scanning System and Method. 2021-10-29, 2029620. （荷兰发明专利，实审）

联系方式：

通讯地址：山东省济南市经十路17922号金沙js55登陆千佛山校区金沙js55登陆图东楼414

邮编：250061

Prof. Ji-Peng WANG

BEng、MSc、PhD

➢  Professor in Geomechancis and Hydraulic Engineering

➢  National Talent Plan for Oversea Young Scholars

➢  Taishan Scholar of Shandong Province (Young Professional)

➢  Qilu Young Scholar of Shandong University

➢  Secretary of International Affairs of the School

➢  International Collaboration Ambassador of Shandong University

Research Areas: micro-macro mechanics of geo-materials, ecological geotechnical engineering, UAV based smart maintenance of infrastructures, earthen ruins and masonry heritage conservation, etc.

Email: ji-peng.wang@sdu.edu.cn

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)

2018.9-now   Shandong University, Professor

Research Interests:

1. Micro-macro mechanics of geo-materials

·       DEM modelling and coupling with multiphase fluid

·       Three dimensional analysis of high-resolution micro-CT

·       Hydraulic and mechanical behaviours of unsaturated geomaterials

2. Ecological geotechnical      engineering

·       Rainfall infiltration effects on slope hydrology and stability

·       Vegetation and soil-root interactions under the context of climate change

·       Microbial-induced carbonate precipitation (MICP) reinforcement technology

3. UAV based infrastructure      intelligent operation and maintenance

·       UAV based dangerous rock slope deformation monitoring and warning

·       UAV based intelligent infrastructure disease detection

4. Earthen ruins and masonry      heritage conservation

·       Deterioration mechanisms of rammed earth relic

·       MICP reinforcement of earthen and masonry heritage

Research Projects:

2022-2024    China Key R & D plan: “Interactions between plant and soil on the context of climate change” 2,000,000 CNY (PI)

2021-2023    China National Young Talent Programme: “Micro-Macro Mechanics of Multi-phase Geomaterials”    2,000,000 CNY  (PI)

2022-2025    Shandong University-Bowee Vision UAV based Infrastructure Intelligent Operation and Maintenance Research Centre Project  3,000,000 CNY  (PI)

2021-2022     NSFC-FNRS joint project: “Unsaturated soil mechanics from capillary and surface tension effects at microscale”     100,000 CNY   (PI)

2020-2022     NSFC research project: “A micro-investigation on the air-water-solid interface effects in unsaturated soils”     267,000 CNY     (PI)

2020-2022     Wuxi Hongshan (National) Archaeological Site Park: "Qiuchengdun Tomb Deformation Monitoring" 100,000 CNY (PI)

2019-2024     Research project of the Taishan Scholar Programme of Shandong Province (Young Professional Programme)     500,000 CNY     (PI)

2018-2023     Research project of the Qilu Young Scholar Programme of Shandong University     1,000,000 CNY  (PI)

2015-2018     FNRS project: “Micro-Macro study of the capillarity effects on mechanical behaviour of granular materials”     500,000 euros     (main researcher)

2015-2018     BELSPO IAP project: “Micromanipulation and microfluidics: multiscale applications of surface tension”  200,000 euros     (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 (first or corresponding author*):

1. Wang, J.-P.*, Luan, J.-Y., Gao, X.-G., Liu, T.-H., Ando, E., and François,      B. 2022. A Micro-Investigation of Unsaturated Sand      in Mini-Triaxial Compression based on Micro-CT Image Analysis, Acta      Geotechnica, 17, 4799–4821, doi:10.1007/s11440-022-01658-7

2. Gao, X.-G., Sha, J.-F., Qi, M., Wang, J.-P.*, Luan, J.-Y., and Liu, T.-H. 2022. A triple-source CT system for      micro-scale investigation of geological materials: A simulation study, Applied      Radiation and Isotopes, 190:110510, doi: 10.1016/j.apradiso.2022.110510

3. Wang,      J.-P., Tan, Y.-R., Bai, M.-H., Gao, X.-G., Dadda, A., Zhang, J., 2022. Hydrologic effects of vegetation on slope protection in Yellow      River Basin in China, Plant and Soils, (under review)

4. Luan, J.-Y., Wang,      J.-P.*, Dadda, A., Gao, X.-G., Bai, M.-H., 2022. A miniature triaxial      compression apparatus of unsaturated granular material suits for X-ray      μ-CT scanning system, Experimental Mechanics, (under review)

5. Wang, J.-P.*, François, B., and Lambert, P. 2020. From basic particle      gradation parameters to water retention curves and tensile strength of      unsaturated sandy soils, International Journal of Geomechanics, 20(6):      05020003. doi:10.1061/(ASCE)GM.1943-5622.0001677

6.      Cui X., Zhang X., Wang J.-P.*, 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: 120075.

7.      Wang, J.-P.*, Lambert, P., DeKock, T., Cnudde, V., & François, B., 2019, Investigation of the effect of specific interfacial area on strength of unsaturated granular materials by X-ray tomography image analysis. Acta Geotechnica, 14(5), 1545-1559. doi:10.1007/s11440-019-00765-2

8.      Wang, J.-P.*, Andò, E., Charrier, P., Salager, S., Lambert, P., & François, B., 2019, Micro investigation of unsaturated sand in mini-triaxial shearing using X-ray CT. Géotechnique Letters, 9(4), 269–277. doi: 10.1680/jgele.18.00214.

9.      Wang, J.-P.*, Zeng, G.-H., and Yu, H.-S. 2019. The critical state of wet granular matters with capillary effect: a micromechanical study, Computational Particle Mechanics, 6(4), 637-655. doi:10.1007/s40571-019-00243-2

10. Wang,      J.-P., Zhuang, P.-Z., et al., 2019,      Estimation of unsaturated hydraulic conductivity of granular soils from      particle size parameters, Water, 11(9), 1826.      doi.org/10.3390/w11091826

11. Wang,      J.-P.*, Li, X., and Yu, H.-S., 2018, A      micro-macro investigation of the capillary strengthening effect in wet      granular materials, Acta Geotechnica, 13(3): 513-533, doi: 10.1007/s11440-017-0619-0

12. Wang,      J.-P.*, Hu, N., François, B., and 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, doi:10.1002/2017WR020411

13. Wang,      J.-P.*, François, B., and Lambert, P. 2017.      Equations for hydraulic conductivity estimation from particle size      distribution: A dimensional analysis. Water Resources Research,      53(9): 8127-8134, doi:10.1002/2017WR020888

14. Wang,      J.-P.*, Gallo, E., François, B., Gabrieli, F.,      and Lambert, P., 2017, Capillary force and rupture of funicular liquid      bridges between three spherical bodies. Powder Technology, 305:      89–98. doi:10.1016/j.powtec.2016.09.060

15. Wang,      J.-P., Li, X., and Yu, H.-S.*, 2017,      Stress-force-fabric relationship for unsaturated granular materials in      pendular states. Journal of Engineering Mechanics, 143(9), 04017068.      doi:10.1061/(ASCE)EM.1943-7889.0001283

16. Wang, J.-P.*, 2017, Force Transmission Modes of Non-Cohesive and Cohesive      Materials at the Critical State. Materials, 10(9): 1014.      doi:10.3390/ma10091014 

17. Wang, J.-P., Li, X., and Yu, H.S., 2015, A micromechanical interpretation      of the capillary effect of unsaturated granular material in a pendular      state. Computer Methods and Recent Advances in Geomechanics, Taylor      and Francis - Balkema. pp. 1563–1568.

Invention Patents:

1.       王冀鹏; 高旭光; 栾纪元; 刘太衡; 沙俊峰; 齐萌; 一种三源三探测器结合的工业CT快速扫描系统及方法，2021-01-29，中国，CN202110124424.9   (Authorized Invention Patent)

2.       王冀鹏; 栾纪元; 刘太衡; 谭怡然; 适用工业CT扫描的微型温控非饱和土三轴试验仪及方法, 2021-01-12, 中国, ZL201910778356.0    (Authorized Invention Patent)

3.       王冀鹏; 刘太衡; 谭怡然; 栾纪元; 适用于工业CT扫描的微型土水特征曲线试验装置及方法, 2021-04-09, 中国, ZL201910778457.8   (Authorized Invention Patent)

4.       王冀鹏; 沙俊锋; 高旭光; 谭怡然; 适用于CT扫描的植物根系吸水过程试验装置及方法，2021-12-10，中国，ZL202011446926.5    (Authorized Invention Patent)

5.       王冀鹏; 齐萌; 沙俊锋; 高旭光; 适用于CT扫描的微生物诱导碳酸钙沉淀试验装置及方法，2022-05-30，中国，CN2022105992722  (Actual trial)

6.       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, US11119056B2 (US Patent, Authorized)

7.       Jipeng Wang; Xu-Guang Gao; Ji-Yuan Luan; Tai-Heng Liu; Jun-Feng Sha; Meng-Qi. A Fast Industrial CT Scanning System and Method. 2021-10-29, 17/505, 082. (US Patent, Actual trial)

8.       Jipeng Wang; Xu-Guang Gao; Ji-Yuan Luan; Tai-Heng Liu; Jun-Feng Sha; Meng-Qi. A Fast Industrial CT Scanning System and Method. 2021-10-29, 2029620. (Netherland Patent, Actual trial)

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