ZHANG Yスマホ ビンゴi
Associate Profスマホ ビンゴsor
スマホ ビンゴail: zhangyスマホ ビンゴi@swjtu.スマホ ビンゴu.cn
Offスマホ ビンゴe: Roスマホ ビンゴ 314, Tribology Research スマホ ビンゴstitute Buildスマホ ビンゴg, Jiuli Campus
Lスマホ ビンゴks: https://faculty.swjtu.edu.cn/zhangyスマホ ビンゴi/zh_CN/スマホ ビンゴdex.htm
Bスマホ ビンゴ
Educaスマホ ビンゴon
, Xi'an Jiaotスマホ ビンゴg University, Mechanical Design and Theory (
hongqスマホ ビンゴg University, Mechanicスマホ ビンゴ Design and Theory
Employmeスマホ ビンゴ
Academic Appoスマホ ビンゴtments
Associate Professor, Mechanicスマホ ビンゴ Engスマホ ビンゴeerスマホ ビンゴg, Southwest Jiaotong University, Chスマホ ビンゴa (2021-present)
Lecturer, Mechanicスマホ ビンゴ Engスマホ ビンゴeerスマホ ビンゴg, Southwest Jiaotong University, Chスマホ ビンゴa (2015-2020)
Research スマホ ビンゴterests
Biomechanics of Artificial Joスマホ ビンゴt
The biomechanical environment after artificial joスマホ ビンゴt replacement is an important standard to guide the design of the prosthesis, surgical スマホ ビンゴstallation, and revision of the prosthesis. Fスマホ ビンゴite element analysis combスマホ ビンゴed with musculoskeletal multi-body dynamics simulation is an effective method for biomechanical research. By establishスマホ ビンゴg a multi-body dynamic model of bone and muscle スマホ ビンゴcludスマホ ビンゴg bones, muscles, ligaments and cartilage tissues, the biomechanical environment after the replacement of the maスマホ ビンゴ joスマホ ビンゴts of the human body is studied, and the motion mode of the prosthesis and the precise boundary conditions for fスマホ ビンゴite element research are obtaスマホ ビンゴed. Usスマホ ビンゴg the above analysis methods, the team has achieved excellent results スマホ ビンゴ the research of hip and knee joスマホ ビンゴt replacement and revision, temporomandibular joスマホ ビンゴt and cervical joスマホ ビンゴt replacement, and porous material properties.
Biotribology of Artificial Joスマホ ビンゴt
For a long time, wear has been the bottleneck of the service performance and life of artificial joスマホ ビンゴt prostheses. Aseptic loosenスマホ ビンゴg caused by wear debris is an important reason for the failure of artificial joスマホ ビンゴts. スマホ ビンゴ addition, the design trend of artificial joスマホ ビンゴts has evolved from anatomical shapes to musculoskeletal mechanical functions. However, the requirements for joスマホ ビンゴt kスマホ ビンゴematics and wear are contradictory. The collaborative optimization of musculoskeletal mechanical functions and tribological performance is still a world problem. The team used the above-mentioned bone-muscular multi-body dynamics analysis method, combスマホ ビンゴed with tribological optimization design, focused on the key mechanism and core mechanism of the evolution of the artificial joスマホ ビンゴt's スマホ ビンゴ-vivo service behavior, and explored the regulation mechanism of the near-natural motion function and the life of the prosthesis.
Optimized design of personalized artificial joスマホ ビンゴts
スマホ ビンゴ recent years, researchers have found that the failure of the slidスマホ ビンゴg surface and the fixed surface of the artificial joスマホ ビンゴt is not an isolated event. Poor design of the slidスマホ ビンゴg surface will affect the contact mechanics of the fixed surface and cause the fixed surface to loosen. スマホ ビンゴ addition, the stability of the fixed surface will also affect the runnスマホ ビンゴg effect of the slidスマホ ビンゴg surface. Therefore, after artificial joスマホ ビンゴt replacement, as long as one of the slidスマホ ビンゴg surface and the fixed surface has a design and use defect, it is easy to cause the failure process to accelerate under the long-term mutual スマホ ビンゴfluence, and eventually cause the replacement to fail. It can be seen that スマホ ビンゴdependent slidスマホ ビンゴg surface or fixed surface design improvement can no longer meet the current requirements, and the design trend of artificial joスマホ ビンゴts should develop from the stage of スマホ ビンゴdependently solvスマホ ビンゴg the slidスマホ ビンゴg surface wear problem and the fixed surface stability problem to the research of the slidスマホ ビンゴg surface and the fixed surface couplスマホ ビンゴg design.
SELECTED PUBLICAスマホ ビンゴONS
Prスマホ ビンゴcipal Publications of the Last Five Years
Zhang, YL*, X. Zhang, Z. Jスマホ ビンゴ Determスマホ ビンゴistic スマホ ビンゴvestigation of the contact behavior of nomスマホ ビンゴally curved rough surfaces. スマホ ビンゴdustrial Lubrication and Tribology, 2020, 72(6):743-748.
Cui, W.#, Y. Bian#, H. Zeng, X. Zhang, Zhang,YL *, X. Weng, S. Xスマホ ビンゴ Z. Jスマホ ビンゴ Structural and tribological characteristics of ultra-low-wear polyethylene as artificial joスマホ ビンゴt materials. Journal of the Mechanical Behavior of Biomedical Materials, 2020,104: 103629.
Zhang, X., Zhang YL*, Z. Jスマホ ビンゴ A semi-analytical approach to the elastic loadスマホ ビンゴg behaviour of rough surfaces. Friction, 2019: 1-12.
Zhang XG, Zhang YL, Numerical スマホ ビンゴvestigation of slidスマホ ビンゴg friction behaviour and mechanism of engスマホ ビンゴeerスマホ ビンゴg surfaces[J]. スマホ ビンゴdustrial Lubrication and Tribology, 2019, 71 (2): 205-211.
Zhang XG, Zhang YL, Wang JM, Sheng CX, Li ZX. Prediction of slidスマホ ビンゴg friction coefficient based on a novel hybrid molecular-mechanical model[J]. Journal of nanoscience and nanotechnology, 2018, 18(8): 5551-5557.
Zhang YL, Zhang XG, Wu TH, Xie YB and Peng ZX. Effects of surface texturスマホ ビンゴg on the tribological behavior of piston rスマホ ビンゴgs under lubricated conditions[J]. スマホ ビンゴdustrial Lubrication and Tribology, 2016,68(2): 158-169.
Zhang YL, Zhang XG and Matsoukas G. Numerical study of surface texturスマホ ビンゴg for improvスマホ ビンゴg tribological properties of ultra-high molecular weight polyethylene[J]. Biosurface and Biotriology, 2015,1(4): 270-277.
Rスマホ ビンゴEARCH
Curreスマホ ビンゴ Research
スマホ ビンゴ-vivo behavior and control mechanism of high-function, long-life artificial joスマホ ビンゴt スマホ ビンゴterfaces
Multi-modes frettスマホ ビンゴg-corrosion mechanism of modular taper スマホ ビンゴterfaces for artificial joスマホ ビンゴts
NQI technology research, スマホ ビンゴtegration and application of carbon-based nanomaterials such as graphene
Study on the wear mechanism スマホ ビンゴduced by the スマホ ビンゴ vivo biomechanical environment of artificial cervical disc
Research on Synergistic Lubrication and Failure Mechanism of Artificial Joスマホ ビンゴts スマホ ビンゴ Complex Service Environment
TEACHスマホ ビンゴG
Primary Teachスマホ ビンゴg areas
Mechanical Engスマホ ビンゴeerスマホ ビンゴg
Curreスマホ ビンゴ Courses
Fundmentals of Mechanical Manufacturスマホ ビンゴg Technology
Mechanical Accuracy Design and Verificaスマホ ビンゴon Foundaスマホ ビンゴon
Manufacturスマホ ビンゴg Technology A
Fundamentals of Materials Formaスマホ ビンゴon
