刘泰维 青年编委

学术贡献

• 1、1.T. Liu, F. Liang, et al. A microstructure-based finite element model of the human left ventricle for simulating the trans-scale myocardial mechanical behaviors, Mech Mater, 2025 (If=4.1, JCR一区)
• 2、2.T. Liu, F. Liang, et al. An electromechanical model-based study on the dosage effects of ranolazine in treating failing HCM cardiomyocyte, Cell Mol Bioeng, 2025 (If=5, JCR一区)
• 3、3.T. Liu, F. Liang, et al. An idealized human cardiomyocyte finite element model for studying the interaction between the cross-bridge state and cell mechanical response, IEEE EMBC 2023 (CPCI-S, Conference)
• 4、4.T. Liu, F. Liang, et al. Computational modeling of electromechanical coupling in human cardiomyocyte applied to study hypertrophic cardiomyopathy and its drug response, Comput Meth Prog Bio, 2023 (If=6.1, Top, 中科院二区)
• 5、5.T. Liu, et al,. Biomechanical behaviors and visco-hyperelastic mechanical properties of human hernia patches with polypropylene mesh, Mech Mater, 2022 (If=4.0, 中科院二区)
• 6、6.T. Liu, M. Shen, et al,. Changes and quantitative characterization of hyper-viscoelastic biomechanical properties for young corneal stroma after standard corneal cross-linking treatment with different ultraviolet-A energies, Acta Biomater, 2020 (If=9.6, Top, 中科院一区)
• 7、7.T. Liu, M. Shen, et al,. Characterization of hyperelastic mechanical properties for youth corneal anterior central stroma based on collagen fibril crimping constitutive model, J Mech Behav Biomed, 2020 (If=3.9, 中科院二区)
• 8、8.T. Liu, F. Liang, et al. Mechanical behaviors and energetic efficiencies of OHCM ventricles before and after septal myectomy, Biomechanics and modeling in mechanobiology, 2025 (If=2.7, JCR一区)