牛勇,2021年毕业于重庆大学。河海大学博士后。目前主持国家自然科学青年基金(C类)和浙江省青年基金各一项。参与国家重点研发计划项目一项。参与国家自然科学基金面上项目4项。参编团体标准两部。主要研究方向:脆性材料(岩石)破裂灾变失稳过程监测、表征与预警;近场动力学(Peridynamics)数值方法研究;应力扰动岩石动力学。国际期刊Engineering Failure Analysis、Fatigue & Fracture of Engineering Materials & Structures、Theoretical and Applied Fracture Mechanics等审稿人。
(1)科研项目
① 国家自然科学青年基金项目,主持。
② 浙江省自然科学青年基金项目,主持。
③ 绍兴市科技计划项目,主持。
(2)学术论文
[1] Yunjin Hu, Chenxing Tian, Caijun Shao, Yong Niu (Corresponding author). Investigating the effects of the moisture content of filling and shear rate on the shear characteristics of rock-like materials with joint. Engineering Failure Analysis 171 (2025) 109411.
[2] Yong Niu, Kai Xu, Zhen Zhong, Yunjin Hu, Bolong Liu, Yanhui Guo. Numerically investigating the cracking evolution paths and the fracture mechanisms of notched concrete materials under impact loading. Engineering Fracture Mechanics 315 (2025) 110805.
[3] Niu Yong, Zhou Xiaoping*, Chen Junwei. Numerical study ondynamic cracking characteristic and mechanism ofquasi-brittle materials underimpulsive loading. Theoretical and Applied Fracture Mechanics. 2024, 131:105356.
[4] Niu Yong, Liu Guangjian, Zhong Zhen*, et al. Numerical investigation on fracture characteristic and failure mechanism of rock-like materials with intermittent flaws under compressive-shear loading. Construction and Building Materials. 2023, 388:131698.
[5] Niu Yong, Wang Gang, Wang Jinguo, et al. Experimental study on thermal fatigue damage and failure mechanisms of basalt exposed to high-temperature treatments. Fatigue & Fracture of Engineering Materials & Structures. 2023, 1-20.
[6] Niu Yong, Wang Jinguo, Wang Xingkai, Hu Yunjin*, et al. Numerical study on cracking behaviors and fracture failure mechanism of flawed rock materials under uniaxial compression. Fatigue & Fracture of Engineering Materials & Structures. 2023, 46(6):2096-2111.
[7] Niu Yong, Wang Jinguo, Hu Yunjin*, et al. Time-frequency domain characteristics of intact and cracked red sandstone based on acoustic emission waveforms. Geomechanics and Engineering. 2023, 34(1). https://doi.org/10.12989/gae.2023.34.1.000.
[8] Niu Yong, Hu Yunjin*, Wang Jinguo. Cracking characteristics and damage assessment of filled rocks using acoustic emission technology. International Journal of Geomechanics. 2023, 23(4):04023013.
[9] Niu Yong, Wang Jinguo, Hu Yunjin*, et al. Monitoring the Fracture Damage Evolution Process of Flawed Rocks and Its Temporal Fractal Characteristic. International Journal of Civil Engineering. 2023.
[10] Niu Yong, Liu Pengfei, Zhang Chengpeng, Hu Yunjin*, Wang Jinguo. Mechanical properties and dynamic multifractal characteristics of shale under anisotropic stress using AE technology. Geoenergy Science and Engineering (原期刊: Journal of Petroleum Science and Engineering). 2023, 226: 211748.
[11] Niu Yong, Zhou Xiaoping. Forecast of time-of-instability in rocks under complex stress conditions using spatial precursory AE response rate. International Journal of Rock Mechanics and Mining Sciences, 2021, 147:104908.
[12] Niu Yong, Zhou Xiaoping, Zhang Jianzhi, Qian Qihu. Experimental study on crack coalescence behavior of double unparallel fissure-contained sandstone specimens subjected to freeze-thaw cycles under uniaxial compression. Cold Regions Science and Technology. 2019, 158: 166-181.
[13] Niu Yong, Zhou Xiaoping, Zhou Lunshi. Fracture damage prediction in fissured red sandstone under uniaxial compression: acoustic emission b-value analysis. Fatigue and Fracture of Engineering Materials and Structures, 2020, 43(1):175-190.
[14] Niu Yong, Zhou Xiaoping, Berto Filippo. Evaluation of fracture mode classification in flawed red sandstone under uniaxial compression. Theoretical and Applied Fracture Mechanics, 2020, 107(1):102528.
[15] Niu Yong, Zhou Xiaoping. Fracture and time-varying Multifractal behaviors of single-flawed red sandstone with different wavilness angles. Journal of materials in civil engineering, 2020, 32(9):04020272.
[16] Niu Yong, Zhou Xiaoping, Berto Filippo. Temporal dominant frequency evolution characteristics during the fracture process of flawed red sandstone. Theoretical and Applied Fracture Mechanics. 2020, 110(1):102838.
[17] Zhou Xiaoping, Niu Yong, Zhang Jianzhi, Shen Xuecheng, Zheng Yu, Berto Filippo. Experimental study on effects of freeze-thaw fatigue damage on the cracking behaviors of sandstone containing two unparallel fissures. Fatigue & Fracture of Engineering Materials & Structures. 2019, 42(6):1322–1340.
[18] Zhou Xiaoping, Niu Yong, Cheng Hao, Berto Filippo. Cracking behaviors and chaotic characteristics of sandstone with unfilled and filled dentate flaw. Theoretical and Applied Fracture Mechanics. 2020, 112: 102876.
[19] Huang Jie, Qin Chaozhong, Niu Yong,*(Corresponding author) Li Rui, Song Zhenlong, Wang Xingdong. A method for monitoring acoustic emissions in geological media under coupled 3-D stress and fluid flow. Journal of Petroleum Science and Engineering. 2022, 211: 110227.
(3)团体标准
中国标准:周小平,寿云东,张建智,陈俊伟,赵智,牛勇,张婷,程浩,杨圣奇,王海军,赵程,徐涛,黄彦华,王允腾;岩石裂纹扩展试验规程,T/CSRME 045-2024,中国岩石力学与工程学会,2024-2-8。
