1. Hanzhi Yang, Lei Wang, Chunhe Yang, Jian Zhao, et al. Mechanical performance of oil-well cement slurries cured and tested under high-temperatures and high-pressures for deep-well applications[J]. Cement and Concrete Research, 2024, 175: 107355. 2. Hanzhi Yang, Lei Wang*, Guangping Huang, Jian Zhao, et al. Effects of compressive cyclic loading on the fatigue properties of oil-well cement slurries serving in deep downhole environments[J]. Construction and Building Materials, 2024, 428: 136360. 3. Hanzhi Yang, Lei Wang*, Chunhe Yang, Wuhao Guo, et al. Experimental investigation on different effects of fracturing fluids on mechanical properties and failure mechanism of continental shale[J]. International Journal of Rock Mechanics and Mining Sciences, 2023, 164:105362. 4. Hanzhi Yang, Xin Chang*, Chunhe Yang, Wuhao Guo, et al. Visualization and characterization of experimental hydraulic fractures interacting with karst fracture-cavity distributions[J]. Journal of Rock Mechanics and Geotechnical Engineering, 2023, 16(5): 1667-1683. 5. Hanzhi Yang, Yintong Guo*, Lei Wang, Zhenhui Bi, et al. Study on the stimulation effectiveness evaluation of large-scale hydraulic fracturing simulation experiment based on optical scanning technology[J]. SPE Journal, 2022, 27(05): 2941-2959. 6. Hanzhi Yang, Lei Wang, Chunhe Yang, Yintong Guo*, et al. Visualization and quantitative statistics of experimental hydraulic fracture network based on optical scanning[J]. Journal of Natural Gas Science and Engineering, 2022, 105: 104718. 7. Wuhao Guo, Yintong Guo*, Hanzhi Yang, Lei Wang, et al. Tensile mechanical properties and AE characteristics of shale in triaxial Brazilian splitting tests[J]. Journal of Petroleum Science and Engineering, 2022, 219: 111080. 8. Lei Wang, Hanzhi Yang, Yintong Guo*, Zhenhui Bi, et al. Comparative study of marine and lacustrine shale reservoirs from the viewpoint of rock mechanics[J]. Energy & Fuels, 2021, 35(23): 19481-19495. 9. Zhenhui Bi, Lei Wang*, Hanzhi Yang, Yintong Guo, et al. Development and verification of a physical simulation experiment system for initiation and propagation of multiple clusters of hydraulic fractures[J]. Chinese Journal of Rock Mechanics and Engineering, 2021, 40(11):2273-2285. 10. Hanzhi Yang*, Zhenhui Bi, Lei Wang, Wuhao Guo, et al. Experimental investigation of different influence mechanisms of fracturing fluid immersion on continental shale[C]. 55th U.S. Rock Mechanics/Geomechanics Symposium. ARMA, 2021: ARMA-2021-1680.
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1. Jilin University: Tang Au-Chin Young Scholar Project, 2024-10 to 2029-12, CNY 300,000, person in charge. 2. National Natural Science Foundation of China: Failure Mechanism and Control Method of Cement Sheath Structural Integrity under Complex Dynamic Loading, 2023-01 to 2026-12, CNY 1,830.100, main participant. 3. National Science and Technology Major Project-Special Topic: Rock Mechanics Parameter Test and Research on Complicated Fracture Propagation Law of Shale Fracturing, 2016-01 to 2020-12, CNY 3,000,000, participant. |
1. A fractal dimension calculation method and device based on the Octree Algorithm, National Invention Pattern of China, ZL202110370793.6,1/9. 2. The Octree Box-Counting Method Software V1.0, Software Copyright Registration Certificate of China, 2021SR0910731, 1/1. 3. A sample preparation method for the test of shear strength parameters of the second interface of cement sheath, National Invention Pattern of China, ZL202110746896.8, 8/11. 4. An experimental method for evaluating the seepage capacity of hydraulic fractures in unconventional reservoirs, National Invention Pattern of China, ZL202110581934.9, 8/11. 5. A quantitative evaluation method for fracturing fractures integrated by multiple means, National Invention Pattern of China, ZL202110569494.5, 8/11.
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