IntE MeD Lab

PUBLICATION

After 2022  

  1. Lyu Y, Niu Y, He T, Shu, L., Zhuravkov M, Zhou S. An Efficient Method for the Inverse Design of Thin-Wall Stiffened Structure Based on the Machine Learning Technique. Aerospace, 10(9): 761.

  2. Bai W, Zhai Y, Zhao J, Jia X, Han G, Shu, L., Wang D, Xu J. Characterization of Ultrasonically Assisted Orthogonal Cutting of Bone Using Digital Image Correlation Analysis. Journal of Manufacturing Science and Engineering, 145(11): 111002.

  3. Bai W, Zhai Y, Zhao J, Han G, Ye L, Zhu X, Shu, L., Wang D. Experimental investigation of material removal in elliptical vibration cutting of cortical bone. Chinese Journal of Mechanical Engineering, 36(1): 52.

  4. Shu, L., Fang Z, Wang C, Katsuma T, Zhang B, Sugita n. Effect of single-grit wear on surface integrity of hardened stainless steel in dry grinding. CIRP Annals.

  5. Sun, T., He, X., Song, X., Shu, L., and Li, Z. * (2022) Digital Twin in Medicine: A Key to the Future of Healthcare? Frontiers in Medicine

  6. Ying, Z., Shu, L., and Sugita, N. (2022) Bone Milling: On Monitoring Cutting State and Force Using Sound Signals, Chinese Journal of Mechanical Engineering, 35(1), 61

  7. Naoki, H., Ying, Z., Koki, N., Shu, L., and Sugita, N. (2022) Simultaneous Gesture Classification and Speed Control for Myoelectric Prosthetic Hand Using Joint-Loss Neural Network, IEEE/RSJ International Conference on Intelligent Robots and Systems, 12780-12786

  8. Shu, L., Abe, N., Li, S., and Sugita,N. (2022) Importance of posterior tibial slope in joint kinematics with an anterior cruciate ligament-deficient knee. Bone & Joint Research, 11(10), 739-750

  9. Zhai, Y., Zhao, J., Han, G., Ye, L., Zhu, X., Shu, L., and Wang, D. (2022) Experimental investigation of material removal in elliptical vibration cutting of cortical bone.

  10. Meng, M., Wang, J., Sun, T., Zhang, W., Zhang, J., Shu, L., and Li, Z. (2022) Clinical applications and prospects of 3D printing guide templates in orthopaedics. Journal of Orthopaedic Translation, 34, 22-41

BOOK AND CHAPTERS__(1)

  1. Hua X., and Shu L., Musculoskeletal Modelling and Biomechanics of the Knee Joint, in Book “Cartilage Tissue and Knee Joint Biomechanics”, 2023, published by Elsevier

Before 2022

  1. Shu, L. *, Li, S., Fang, Z., Kizaki, T., Kimura, K., Arai, G., Arai, K., and Sugita, N. (2021) Study on dedicated drill bit design for carbon fiber reinforced polymer drilling with improved cutting mechanism, Composites Part A: Applied Science and Manufacturing, 142, 106259.

  2. Shu, L. *, Li, S., Terashima, M., Bai, W., Hanami, T., Hasegawa, R., and Sugita, N., (2020) A novel self-centring drill bit design for low-trauma bone drilling, International journal of machine tools and manufacture, 103566.

  3. Shu, L. *, Yamamoto, K., Yoshizaki, R., Yao, J., Sato, T., & Sugita, N. (2021). Multiscale finite element musculoskeletal model for intact knee dynamics. Computers in Biology and Medicine, 105023.In Press

  4. Shu, L. *, Yamamoto, K., Shin K. Inagaki J. & Sugita, N. (2021) In-vivo Kinematical Validated Knee Model for Preclinical Testing of Total Knee Replacement, Computer in Biology and Medicine, 132, 104311.

  5. Shu, L. *, Yamamoto, K., Yao, J., Saraswat, P., Liu, Y., Mitsuishi, M., & Sugita, N. (2018). A subject-specific finite element musculoskeletal framework for mechanics analysis of a total knee replacement. Journal of Biomechanics, 77, 146-154.

  6. Hua X.*, Shu, L. *, and Li, J., (2022) Multiscale modelling for investigating the long-term time-dependent biphasic behaviour of the articular cartilage in the natural hip joint, Biomechanics and Modeling in Mechanobiology, Accepted.

  7. Shu, L. *, Hashimoto, S., and Sugita, N., (2021), Enhanced in-silico polyethylene wear simulation of total knee replacements during daily activities, Annals of Biomedical Engineering, 49(1), 322-333.

  8. Bai, W., Shu, L. *, Sun R., Xu J., and Sugita, N., (2021), Design of a self-centring drill bit for orthopaedic surgery: a systematic comparison with the commercial drills, Journal of the Mechanical Behavior of Biomedical Materials, 123, 104727.

  9. Shu, L. *, Sato. N., and Sugita, N., (2021), Comparison of Kinematics and Contact Mechanics in the Normal Knee and Total Knee Replacements: A Computational Investigation, Annals of Biomedical Engineering, Accepted

  10. Ying, Z., Shu, L. *, Kizaki, T., Iwama, M., and Sugita, N., (2021), Hybrid approach for onsite monitoring and anomaly detection of cutting tool life, Procedia CIRP, 104, 1541-1546.

  11. Li, S., Shu, L. *, Kizaki, Bai, W., Terashima, T., and Sugita, N., (2021) Cortical bone drilling: a time series experimental analysis of thermal characteristics, Journal of Manufacturing Processes, 64, 606-619.

  12. Shu, L. *, Bai, W., Ying, Z., and Sugita, N., (2020), Thermographic assessment of heat-induced cellular damage during orthopedic surgery, Medical engineering & physics, 83:100-105.

  13. Shu, L. *, Sugita, N., Oshima, M., & Mitsuishi, M. (2020), Analysis of fracture, force, and temperature in orthogonal elliptical vibration assisted bone cutting, Journal of the Mechanical Behavior of Biomedical Materials, 103599.

  14. Shu, L.*, Li, S, & Sugita, N. (2020), A Systematic Review of Computational Modelling for Preclinical Testing and Design of Total Knee Replacement, Biosurface and Biotribology, 4:1-9.

  15. Ying, Z., Shu, L. *, and Sugita, N., (2020), Experimental and Finite Element Analysis of Force and Temperature in Ultrasonic Vibration Assisted Bone Cutting, Annals of Biomedical Engineering, 1-10.

  16. Shu, L. *, Yamamoto, K., Shin K. Inagaki J. & Sugita, N. (2019), Symmetrical Cruciate-Retaining versus Medial Pivot Prostheses: The Effect of Intercondylar Sagittal Conformity on Knee Kinematics and Contact Mechanics, Computer in Biology and Medicine, 108:101-110.

  17. Shu, L. *, Sugita, N., Oshima, M., & Mitsuishi, M. (2018). Design and experimental force analysis of a novel elliptical vibration assisted orthopedic oscillating saw, Medical engineering & physics, 54: 22-31.

  18. Shu, L., Liang, Y*, He, F., & Zhang, H. (2015). Effects of Chemical Properties and Roughness on Anisotropic Wetting Observed on Machined Surfaces. Materials Transactions, 56(1), 149-153.

  19. Liang, Y*., Shu, L., Natsu, W., & He, F. (2015). Anisotropic wetting characteristics versus roughness on machined surfaces of hydrophilic and hydrophobic materials. Applied Surface Science, 331, 41-49.

  20. Kizaki, T.*, Zhen, Q., Shu, L., Tanaka, J., and Katsuma, T., (2022). On reduction of energy flow into workpiece in continuous generating grinding. CIRP Annals, Accepted.

  21. Fang, Z.*, Ren, Z., Shu, L., Kizaki, T., & Sugita, N. (2022). A parametric modeling for fast radial infeed planning process in gear skiving. Mechanism and Machine Theory.

  22. Cui, Y., Xiang, D., Shu, L., Duan, Z., Liao, Z., Wang, S., and Liu, W., (2022) Incremental Element Deletion-Based Finite Element Analysis of the Effects of Impact Speeds, Fall Postures, and Cortical Thicknesses on Femur Fracture. Materials, 15, 2878.

  23. He X., Qiu Y., Lai X., Li X., Shu L., Sun W., Song X., (2021) Towards a shape-performance integrated digital twin for lumbar spine analysis. Digital Twin, In Press.

  24. 杉田 直彦,舒利明 (2021)人工膝関節設計のための有限要素モデルと筋骨格モデル,整形・災害外科,(64)pp: 617-624.

  25. Kizaki, T.*, Takahashi, K., Katsuma, T., Shu, L., & Sugita, N. (2021). Prospects of dry continuous generating grinding based on specific energy requirement. Journal of Manufacturing Processes.

  26. Kizaki, T.*, Takahashi, K., Katsuma, T., Tanaka, J., Shu, L., & Sugita, N. (2020). Effect of grinding fluid supply on workpiece temperature in continuous generating grinding. Journal of Manufacturing Processes, 60, 410-417.

  27. 王成勇, 陈志桦, 陈华伟, 宋清华, 任莹晖, 隋建波, 舒利明, 陈滨. (2021) 生物骨材料切除理论研究综述, 机械工程学报, 57(11), 2-33.

  28. 柏伟, 潘鹏飞, 舒利明, 王栋, 许剑锋. (2021), 骨组织超声辅助切削切屑形成与裂纹扩展机理, 机械工程学报, 57(11), 69-78.

  29. Bai, W., Shu, L., Sun R., Xu J., and Sugita, N.*, (2020), Improvements of material removal in cortical bone via impact cutting method, Journal of the Mechanical Behavior of Biomedical Materials, 103791.

  30. Bai, W., Shu, L., Sun R., Xu J., and Sugita, N.*, (2020), Mechanism of material removal in orthogonal cutting of cortical bone, Journal of the Mechanical Behavior of Biomedical Materials, 103618.

  31. Sugita, N.*, Shu, L., Katsuyo K, Giichi A, and Koichi A. (2019), Dedicated drill design for reduction in burr and delamination during the drilling of composite material, CIRP Annals, 68(1), 89-92.

  32. Sugita, N.*, Shu, L., Shimada T, Oshima M, Kizaki T., & Mitsuishi M. (2018). Novel surgical machining via an impact cutting method based on fracture analysis with discontinue bone model. CIRP Annals, 66(1), 65-68.

BOOK AND CHAPTERS__(2)

  1. Shu, L *, Sugita, N., Coupling of musculoskeletal biomechanics and joint bio-tribology, in Book “Computational Modelling of Biomechanics and Bio-tribology for the Musculoskeletal System”, 2020, published by Elsevier
  2. Shu, L *, Hua, X., Sugita, N., Computational modeling of biotribology on artificial knee joint, in Book “Biotribology: Emerging Technologies and Applications”, 2021, published by Taylor & Francis

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