李俊言
教授
博士生导师
硕士生导师
个人信息Personal Information
教师英文名称:Junyan Li
学历:大学本科毕业
学位:工学学士学位
办公地点:四川成都西南交通大学九里校区摩擦学研究所
性别:男
在职信息:在岗
毕业院校:英国利兹大学
学科:生物医学工程. 软件工程. 工程力学. 固体力学. 机械制造及其自动化. 机械设计及理论
所在单位:机械工程学院
报考该导师研究生的方式
欢迎你报考李俊言老师的研究生,报考有以下方式:
1、参加西南交通大学暑期夏令营活动,提交导师意向时,选择李俊言老师,你的所有申请信息将发送给李俊言老师,老师看到后将和你取得联系,点击此处参加夏令营活动
2、如果你能获得所在学校的推免生资格,欢迎通过推免方式申请李俊言老师研究生,可以通过系统的推免生预报名系统提交申请,并选择意向导师为李俊言老师,老师看到信息后将和你取得联系,点击此处推免生预报名
3、参加全国硕士研究生统一招生考试报考李俊言老师招收的专业和方向,进入复试后提交导师意向时选择李俊言老师。
4、如果你有兴趣攻读李俊言老师博士研究生,可以通过申请考核或者统一招考等方式报考该导师博士研究生。
点击关闭
- Lin, W., Meng, Q., Li, J., Chen, Z., & Jin, Z. (2021). The effect of highly inhomogeneous biphasic properties on mechanical behaviour of articular cartilage. Computer Methods and Programs in Biomedicine, 206, 106122.
- 林伟健, 李俊言, 陈瑱贤, & 靳忠民. (2021). 正常和早期膝骨关节炎的软骨生物力学研究. 力学学报, 54, 1-11.
- Li, J. (2021). Development and validation of a finite-element musculoskeletal model incorporating a deformable contact model of the hip joint during gait. Journal of the Mechanical Behavior of Biomedical Materials. 113, 104136.
- Li, J., Marra, M., Verdonschot, N. and Lu, Y. (2021). A three-dimensional finite-element model of gluteus medius muscle incorporating inverse-dynamics-based optimization for simulation of non-uniform muscle contraction. Medical Engineering and Physics. 87, 38-44.
- Lu, Y., Zhang, D., Cheng L., Yang Z. and Li, J. (2020). Evaluating the biomechanical interaction between the medical compression stocking and human calf using a highly anatomical fidelity three-dimensional finite element model. Textile Research Journal. 0040517520979743.
- Lu, Y., Cheng, L., Yang, Z., Li, J. and Zhu, H. (2020) Relationship between the morphological, mechanical and permeability properties of porous bone scaffolds and the underlying microstructure. PLoS One. 15(9), e0238471.
- Hua, X. and Li, J. (2020). CMM-based method for assessing the volume change of retrieved polyethylene cups in MoP total hip replacements. Biosurface and Biotribology. 6(2), 37-42.
- Li, J., Lu, Y., Miller, S., Jin, Z. and Hua, X. (2019). Development of a finite element musculoskeletal model with the ability to predict contractions of three-dimensional muscles. Journal of Biomechanics. 94, 230-234.
- Lu, Y., Zhu, Y., Krause, M. Huber, G. and Li, J. (2019). Evaluation of the capability of the simulated Dual Energy X-rays Absorptiometry-based two-dimensional finite element models for predicting vertebral failure loads. Medical Engineering and Physics. 69, 43-49.
- Lu, Y., Zuo, D., Li, J. and He, Y. (2019). Stochastic analysis of a heterogeneous micro-finite element model of a mouse tibia. Medical Engineering and Physics. 63, 50-56.