基本信息

黄 晓 林

云南省丽江市永胜县人,工学博士,现为西安交通大学人居环境与建筑工程学院土木工程系特聘研究员,博士生导师。

欢迎对岩石力学与工程、工程地质、黄土力学、地质灾害等领域感兴趣的同学加盟!

电子邮箱: huangxiaolin@xjtu.edu.cn

研究团队及兴趣

研究团队:黄土力学与灾害防治研究团队

负责人许领 教授

研究兴趣:

(1) 岩体结构动力响应及灾变机理

(2) 岩体多尺度异质结构及力学行为

(3) 黄土内部水力侵蚀及灾变效应

(4) 高速远程滑坡物质迁移与能量转化

社会兼职

(1) 中国岩石力学与工程学会岩体工程地质力学分会理事

(2) 中国岩石力学与工程学会地面工程专业委员会委员

(3) 中国岩石力学与工程学会岩石动力学专委会委员

(4) 中国地球物理学会环境地球物理专业委员会委员

(5) 国际工程地质与环境学会(IAEG)会员

(6) 中国岩石力学与工程学会会员

(7) 欧美同学会会员

联系方式

通讯地址:

陕西省西安市西咸新区沣西新城

中国西部科技创新港

19号泓润楼33093办公室    

邮编:712046

我的新闻

教育背景及工作经历

教育背景:

2010.09-2016.06: 中国科学院地质与地球物理研究所,地质工程专业,硕博连读 (导师: 祁生文 研究员)

2014.10-2015.10: 加拿大多伦多大学,土木工程专业,博士联合培养 (导师: 夏开文 教授)

2006.09-2010.06: 中国地质大学(武汉),勘查技术与工程专业,本科

工作经历:

2022.06-至今: 西安交通大学,特聘研究员

2019.01-2022.06: 中国科学院地质与地球物理研究所,副研究员

2016.07-2019.01: 中国科学院地质与地球物理研究所,博士后

人才计划及奖励

人才计划:

1)陕西省高层次引进人才2023

2)中国科学院青年创新促进会会员(2021

(3)西安交通大学青年拔尖人才支持计划(2022

(4)陕西省秦创原引用高层次创新创业人才(2022

(5)陕西省秦岭生态环保“青年学者”(2024

所获奖励:

1)中国岩石力学与工程学会自然科学一等奖(2020,排名第二)

2)中国科学院优秀博士学位论文(2017)

3)中国科学院院长优秀奖(2016)

4)博士研究生国家奖学金(2015)

5)中国科学院大学“三好学生”/“三好学生标兵”(2013)

6)第15次全国岩石力学与工程学术年会优秀报告奖(2018)

7)第十五届全国岩石动力学学术大会优秀报告奖(2016)

8)地球与行星全国博士后学术论坛优秀报告奖(2016)

主持/参与项目

1)国家自然科学基金面上项目“地震下裂隙流体的动载传递-增压减阻效应及对边坡启滑过程影响研究”(主持)

2)陕西省高层次引进人才项目“黄土动力响应及灾变机理(主持)

3)陕西省秦创原创新创业人才项目“工程挖填方边坡水致滑移失稳机制及灾害模拟预测技术研究(主持)

4)国家重点研发计划子课题“高陡山体结构特征及强震动力响应规律(主持)

5)国家自然科学基金青年项目“碎裂结构岩体动态剪切特性及强震溃散机理研究(主持)

6)中科院地质地球所重点部署项目子课题“含沉积物天然气水合物力学特性(主持)

7)中国科学院重点实验室开放基金一等资助“不同埋深岩体的波动力学特征研究(主持)

8)中国博士后基金面上项目一等资助“充填结构面与压缩应力波相互作用研究(主持)

9)国铁集团川藏铁路有限公司专题研究项目“新建铁路川藏线雅安至林芝段毛垭坝斜坡稳定性评估”(副负责)

10)中国科学院重点部署项目“交通廊道活动构造与地应力分布规律” (副负责)

11)中国科学院重点部署项目“工程边坡地震防控” (研究骨干)

发表论文

第一/通讯作者论文(*-Corresponding Author

Huang, X., Xu*, L., Xue, L., Wei, X. (2024) Compression-Hardening Memory of the Microstructure and its Effect on the Cyclic Loading/Unloading Response of Crystalline Rock Using a Grain-Based Model. Rock Mechanics Rock Engineering. https://doi.org10.1007/s00603-024-03863-0

Huang, X., Xu*, L., Du, J., Ding, D. (2024) Propagation of the Longitude Stress Wave through a Filled Fracture Considering Cyclic Loading/Unloading Behaviours. Rock Mechanics Rock Engineering. https://doi.org/10.1007/s00603-024-03800-1

Zhou, G., Xu, L., Huang*, X., Li., Y., Zhang, H., Dong, Y. (2023) Synergistic effect of rainfall and pipe leakage erosion on the formation and development of loess caves in Weinan city, Loess Plateau, Northwest China. Environmental Earth Sciences, 82, 435.

Huang, X., Xu*, L., Zhao, T., Lu, S., Sun, Z., Ding D. (2023) Characterization of the negative Poisson's ratio effect of the thermal-damaged crystalline rock by the grain-based model. International Journal of Rock Mechanics and Mining Sciences, 170,105553.

Zhang, X., Huang*, X., Qi, S., Zheng*, B., Guo, S., Lu, W. (2023) Numerical Simulation on Shale Fragmentation by a PDC Cutter Based on the Discrete Element Method. Energies16, 965.

Du, J., Huang*, X., Yang*, G., Xue, L., Wu, B., Zhang, M., Zhang, X. (2022). UDEC modelling on dynamic response of rock masses with joint stiffness weakening attributed to particle crushing of granular fillings. Rock Mechanics and Rock Engineering, 56, pages1823–1841.

Huang*, X., Qi*, S., Guo, S., Zheng, B., Zhao, Q., Sha, P., Wang, T., Yao, X., Liang, N., Chang, J., Rong, X. (2022). Effect of the crystal habit on micromechanical extensile behaviors of the crystalline rock during compression. Engineering Geology, 310: 106874.

Zhai, M., Xue*, L., Bu, F., Yang, B., Huang*, X., Liang, N., Ding, H. (2022). Effects of Bedding Planes on Progressive Failure of Shales under Uniaxial Compression: Insights from Acoustic Emission Characteristics. Theoretical and Applied Fracture Mechanics, 119: 103343.

Bu, F., Xue*, L., Zhai, M., Huang*, X., Dong, J., Liang, N., Xu, Chao. (2022). Evaluation of the characterization of acoustic emission of brittle rocks from the experiment to numerical simulation. Scientific Reports, 12, 498.

Wu, M., Gao*, K.,  Liu, J., Song, Z, Huang*, X. (2021) Influence of rock heterogeneity on hydraulic fracturing: A parametric study using the combined finite-discrete element method. International Journal of Solids and Structures, 234–235: 111293.

Huang*, X., Qi, S., Zheng, B., Liang, N., Li, L., Xue, L., Guo, S., Sun, X., Tai, D. (2021) An advanced grain-based model to characterize mechanical behaviors of crystalline rocks with different weathering degrees. Engineering Geology, 280, 105951.

Huang, X., Qi*, S., Zheng, B., Guo, S., Liang, N., Zhan, Z. (2020). Progressive Failure Characteristics of the Brittle Rock under High-strain-rate Compression Using the Bonded Particle Model. Materials, 13(18), 3943.

Huang, X., Qi*, S., Zheng, B., Liu, Y., Xue, L., Liang, N. (2020). Stress Wave Propagation through Rock Joints Filled with Viscoelastic Medium Considering Different Water Contents. Applied Sciences, 10, 4797.

Huang, X., Qi, S., Yao, W., and Xia*, K. (2019). Effect of filling humidity on the propagation of high-amplitude stress waves through an artificial joint. Geotechnical Testing Journal, 42(1): 30-42.

Huang, X., Qi*, S., Xia, K., and Shi, X. (2018). Particle crushing of a filled fracture during compression and its effect on stress wave propagation. Journal of Geophysical Research: Solid Earth, 123: 5559-5587.

Huang, X., Zhao., Q., Qi*., S., Xia., K., Grasselli, G., and Chen, X. (2017). Numerical simulation on seismic response of the filled joint under high amplitude stress waves using FDEM. Materials, 10, 13.

Huang, X., Qi., S., Xia*., K., Zheng., H., and Zheng., B. (2016). Propagation of high amplitude stress waves through a filled artificial joint: An experimental study. Journal of Applied Geophysics, 130: 1-7.

Huang, X., Qi*, S., Williams, A., Zou, Y., and Zheng B. (2015). Numerical simulation of stress wave propagating through filled joints by particle model. International Journal of Solids and Structures, 69(70): 23-33.

Huang, X., Qi*, S., Liu, Y., and Zhan, Z. (2015). Stress wave propagation through viscous-elastic jointed rock masses using propagator matrix method (PMM). Geophysical Journal International, 200(1): 452-470.

Huang, X., Qi*, S., Guo, S., and Dong, W. (2014). Experimental study of ultrasonic waves propagating through a rock mass with a single joint and multiple parallel joints. Rock Mechanics and Rock Engineering, 47: 549-559.

授权专利

黄晓林,张宇航,许领,杜佳虎. 结晶岩压缩硬化记忆效应表征方法、装置、设备及介质. ZL2024100996266, 2024-01-24. (国家发明专利)

黄晓林,许领,丁栋,杜佳虎,康维旗. 角度可调土体抗拉强度试验装置及其测量方法. ZL 20241 0031027.0, 2024-01-9. (国家发明专利)

黄晓林,祁生文,郭松峰.一种岩体试件超声波测试设备.ZL201210275641.9, 2014-10-22. (国家发明专利)

祁生文黄晓林郑博文郭松峰邹宇詹志发汪冲浪.一种间接测量粗糙结构面动态刚度的装置.ZL20171023786.1,2019-05-10. (国家发明专利)

祁生文黄晓林郭松峰.一种岩体结构面冲击剪切仪.ZL201210276330.4,2014-11-19. (国家发明专利)

祁生文黄晓林张晓辉郑博文. 一种用于模拟活动断层运动特性的剪切盒.ZL.202010835052.6. (国家发明专利)

詹志发祁生文黄晓林.一维应力波岩体试件动态试验仪.ZL201310298673.5,2015-07-08. (国家发明专利)

祁生文郑博文黄晓林郭松峰. 用于高能加速器CT扫描的岩体剪切试验系统.ZL.202011256870.7.(国家发明专利)

邹宇,祁生文,黄晓林,罗光明,等. 用于霍普金森杆砂土动态压缩试验的工况调节装置和方法,ZL202110089656.5(国家发明专利)

邹宇祁生文黄晓林郭松峰.用于水合物动力学试验的霍普金森杆装置.ZL202110855697.02021-11-09. (国家发明专利)

侯晓坤祁生文黄晓林郭松峰. 用于水合物沉积物土水特征曲线测试的装置. ZL202210919677.X. 2022-09-30. (国家发明专利)

祁生文,郑博文,伍法权,黄晓林,等.一种用于岩体结构面性能测试的试验系统及试验方法.ZL201410078860.7(CN103792133B,2016-07-06. (发明专利)

Shengwen QiXiaolin Huang, Xiaohui Zhang, Bowen Zheng, et al. Shear box for simulating motion characteristics of active fault. 2021203989. 2022-10-27. (Australian Patent)

Shengwen QiXiaolin Huang, Bowen Zheng, Songfeng Guo, et al. Device for indirectly measuring dynamic stiffness of rough structural surface. 2021105145. 2021-09-22. (Australian Patent)

Shengwen Qi, Bowen Zheng, Xiaolin Huang, Songfeng Guo, et al. Rock mass shear test system for high-energy accelerator computed tomography (CT) scanning. US17,361,332B1. 2021-11-25. (US Patent)

Bowen Zheng, Shengwen Qi, Xiaolin Huang, Ning Liang, et al. Shear box for testing cyclic shear characteristics of a rock mass discontinuity. US 10876944 B1. 2020-12-29. (US Patent)

Bowen Zheng, Shengwen Qi, Songfeng Guo, Xiaolin Huang, et al. Clamp and shear test device. US11371921B1. 2022-06-28. (US Patent)

Bowen Zheng, Shengwen Qi, Qian Sheng, Xiaolin Huang, et al. Test apparatus and method for simulating seismic dynamic response of underground cavern. US11,047,782B1. 2021-06-29. (US Patent)

Shengwen Qi, Bowen Zheng, Songfeng Guo, Xiaolin Huang, et al. Shear box for testing shear anisotropy of rock mass discontinuities. G82584799. 2022-06-01. (British Patent)

Shengwen Qi, Bowen Zheng, Xiaolin Huang, Songfeng Guo, et al. Rock Mass Shear Test System for Computed Tomography Scanning with High-Energy Accelerator. 2020103675. 2021-01-20. (Australian Patent)

Shengwen Qi, Bowen Zheng, Songfeng Guo, Xiaolin Huang, Yu Zou. Method for dynamic cyclic direct shear test of rock mass discontinuities. 2019359149. 2021-09-16. (Australian Patent)

Bowen Zheng, Shengwen Qi, Xiaolin Huang, Songfeng Guo, Yu Zou. Sample preparation mould for shear test of rock mass discontinuities. 2019392985. 2021-10-14. (Australian Patent)