个人简介:
研究兴趣:地下管道非开挖安装,更新以及修复。欢迎有土木工程与水利工程专业背景的学生报考硕士和博士研究生,并长期招收相关方向博士后
博士期间从事岩石动力学方面的工作,主要研究岩石在冲击加载下的压缩、拉伸、剪切、断裂以及裂纹损伤积累及演变的研究。阿尔伯塔大学从事非开挖工程中的水平定向钻进技术的工作,利用数据分析等手段对水平定向钻进中的多元随钻数据进行分析,利用随钻数据实现对地层的超前预报、对钻进活动的分析、对钻进效率的优化等,并开发了一套基于云存储、云分析、云发布的随钻数据实时分析软件。
在研项目:
高龄服役管线水力条件和结构安全提升技术与装备研发 国家重点研发计划子课题
供水和排水管网非开挖维护与韧性提升模型研究 国家重点研发计划子课题
市政管网灾变防控理论和关键技术 广东省zj创新创业团队项目(第二核心)
供水管网风险评估监测及环保非开挖修复技术研究 珠海市重点研发计划
广花城际岩溶区隧道全寿命周期智慧管控关键技术研究 横向项目
超长距离输水隧洞非开挖穿越硬岩山体关键技术研究 横向项目
海底软土地层大断面超长距离复杂线形顶管隧道掘进技术研究 横向项目
排水管网喷涂修复用砂浆材料研发及内衬壁厚计算理论研究-测试化验加工 横向项目
超长距离水平定向钻进智能地质勘察技术研究合同 横向项目
深埋长隧道(洞)综合定向勘察技术研究 横向项目
教育经历:
2010-1至2016-9, 多伦多大学, 采矿工程, 博士, 导师: Bibhu Mohanty and Kaiwen Xia
2007-9至2009-9, 多伦多大学, 采矿工程, 硕士, 导师: Kaiwen Xia
2001-9至2005-7, 中国科学技术大学, 理论与应用力学, 学士学位
科研与学术工作经历:
2021-1至现在, 3499cc拉斯维加斯, 3499cc拉斯维加斯, 副教授
2018-9至2020-12, 阿尔伯塔大学, 博士后, 导师: Alireza Bayat
2016-10至2018-9, 多伦多大学, 博士后, 导师: Bibhu Mohanty
代表性研究成果:
Huang, S., Kang, C., A. Bayat, K. Heath, C. Trovato and M. Osbak, Impact of mechanical tripping on cuttings transport in large-diameter horizontal directional drilling applications. Tunnelling and Underground Space Technology 117, 2021: 104159
Kang, C., Huang, S., A. Bayat, K. Heath, C. Trovato and M. Osbak Assessing Friction Coefficient in HDD Using Analytical Models. Journal of Pipeline Systems Engineering and Practice, 2021. 12(3): 04021014.
Kang, C., Huang, S., and A. Bayat, Compressibility characteristics of TDA from OTR (off-the-road) tires: A numerical approach. Transportation Geotechnics, 2021. 29: 100561
Huang, S., B. Mohanty, and K. Xia, A multi-particle rock crushing simulator for studying the fragment size reduction due to impact. Review of Scientific Instruments, 2017. 88(12): 125114.
Gao, G., S. Huang, K. Xia, and Z. Li, Application of Digital Image Correlation (DIC) in Dynamic Notched Semi-Circular Bend (NSCB) Tests. Experimental Mechanics, 2016. 55(1): 95-104.
Huang, S. and K. Xia, Effect of Heat-treatment on the Dynamic Compressive Strength of Longyou Sandstone. Engineering Geology, 2015. 191(29): 1-7.
Huang, S., H. Liu, and K. Xia, A dynamic ball compression test for understanding rock crushing. Review of Scientific Instruments, 2014. 85: p. 123902.
Huang, S., K. Xia, and H. Zheng, Observation of microscopic damage accumulation in brittle solids subjected to dynamic compressive loading. Review of Scientific Instruments, 2013. 84(9).
Xia, K., S. Huang, and F. Dai, Evaluation of the frictional effect in dynamic notched semi-circular bend tests. International Journal of Rock Mechanics and Mining Sciences, 2013. 62: p. 148-151.
Xia, K., S. Huang, and C. Marone, Laboratory observation of acoustic fluidization in granular fault gouge and implications for dynamic weakening of earthquake faults. Geochemistry Geophysics Geosystems, 2013. 14(4): p. 1012-1022.
Huang, S., K. Xia, and F. Dai, Establishment of a Dynamic Mohr-Coulomb Failure Criterion for Rocks. International Journal of Nonlinear Sciences and Numerical Simulation, 2012. 13(1): p. 55-60.
Huang, S., K. Xia, and L. Qiao, Dynamic tests of cemented paste backfill: effects of strain rate, curing time, and cement content on compressive strength. Journal of Materials Science, 2011. 46(15): p. 5165-5170.
Huang, S., et al., Dynamic fracture tests of polymethylmethacrylate using a semicircular bend technique. Journal of Mechanics of Materials and Structures, 2011. 6(6): p. 813-826.
Huang, S., X.T. Feng, and K. Xia, A dynamic punch method to quantify the dynamic shear strength of brittle solids. The Review of scientific instruments, 2011. 82(5): p. 053901-053901.
Huang, S., et al., An Experimental Study of the Rate Dependence of Tensile Strength Softening of Longyou Sandstone. Rock Mechanics and Rock Engineering, 2010. 43(6): p. 677-683.
Huang, S., R. Chen, and K. Xia, Quantification of dynamic tensile parameters of rocks using a modified Kolsky tension bar apparatus. Journal of Rock Mechanics and Geotechnical Engineering, 2010. 2(2): p. 162-168