| 臺大學術典藏 |
2018-09-10T06:02:26Z |
Biomechanical modeling and design optimization of cartilage myringoplasty using finite element analysis
|
Chia-Fone Lee; Lee-Ping Hsu; Peir-Rong Chen; Yuan-Fang Chou; Jyh-Horng Chen; Tien-Chen Liu; JYH-HORNG CHEN |
| 臺大學術典藏 |
2020-03-09T09:11:30Z |
Biomechanical modeling and design optimization of cartilage myringoplasty using finite element analysis
|
Lee C.-F.; Hsu L.-P.; Chen P.-R.; Chou Y.-F.; Chen J.-H.; TIEN-CHEN LIU |
| 臺大學術典藏 |
2010 |
Biomechanical modeling of gravitropic response of branches: roles of asymmetric periphery growth strain versus self-weight bending effect
|
Huang, Yan-San;Hung, Li-Fen;Kuo-Huang, Ling-Long; Huang, Yan-San; Hung, Li-Fen; Kuo-Huang, Ling-Long |
| 國立臺灣大學 |
2010 |
Biomechanical modeling of gravitropic response of branches: roles of asymmetric periphery growth strain versus self-weight bending effect
|
Huang, Yan-San; Hung, Li-Fen; Kuo-Huang, Ling-Long |
| 亞洲大學 |
2019-10 |
Biomechanical Performance of the Cemented Hip Stem with Different Surface Finish
|
Hung, Jui-Pi;Hung, Jui-Pin;Bai, Yu-Wei;Bai, Yu-Wei;Hung, Chung-;Hung, Chung-Qua;李翠娥;Lee, Tsui-Er |
| 國立成功大學 |
1999-07 |
Biomechanical properties of muscle-tendon unit under high-speed passive stretch
|
Lin, Ruey-Mo; Chang, Guan-Liang; Chang, Li-Tung |
| 國立成功大學 |
2019-11 |
Biomechanical properties of off-axis screw in Pauwels III femoral neck fracture fixation: Bicortical screw construct is superior to unicortical screw construct
|
Kuan;Fa-Chuan;Hsu;Kai-Lan;Lin;Cheng-Li;Hong;Chih-Kai;Yeh;Ming-Long;Su;Wei-Ren |
| 國立成功大學 |
2018-08 |
Biomechanical properties of suprapectoral biceps tenodesis: double knotless screw fixation is superior to single knotless screw fixation
|
Hong;Chih-Kai;Chang;Chih-Hsun;Chiang;Florence, L.;Jou;I-Ming;Wang;Ping-Hui;Wang;Hung-Nan;Hsu;Kai-Lan;Kuan;Fa-Chuan;Su;Wei-Ren |
| 臺大學術典藏 |
2021-08-24T05:21:49Z |
Biomechanical properties of the skin in cutis Laxa
|
Kozel B.A.; CHI-TING SU; Danback J.R.; Minster R.L.; Madan-Khetarpal S.; Mcconnell J.S.; Mac Neal M.K.; Levine K.L.; Wilson R.C.; Sciurba F.C.; Urban Z. |
| 國立臺灣大學 |
1995 |
Biomechanical properties of the triceps surae muscle after limb iengthening
|
孫瑞昇; 侯勝茂; 盧國賢; 韓毅雄; 劉堂桂 |
| 臺大學術典藏 |
2018-09-10T05:10:32Z |
Biomechanical properties of the triceps surae muscle after limb lengthening
|
Sun, J.-S. and Hou, S.-M. and Lu, K.-S. and Hang, Y.-S. and Liu, T.-K. and Cheng, C.-K.; JUI-SHENG SUN |
| 臺大學術典藏 |
2020-02-07T03:44:03Z |
Biomechanical properties of the triceps surae muscle after limb lengthening
|
Jui-Sheng Sun;Hou S.-M.;Lu K.-S.;Hang Y.-S.;Liu T.-K.;Cheng C.-K.; JUI-SHENG SUN; Hou S.-M.; Lu K.-S.; Hang Y.-S.; Liu T.-K.; Cheng C.-K. |
| 臺大學術典藏 |
2020-02-27T08:41:27Z |
Biomechanical properties of the triceps surae muscle after limb lengthening
|
KUO-SHYAN LU; Hang Y.-S.; Liu T.-K.; Cheng C.-K.; Hou S.-M.; Sun J.-S.; Sun J.-S.;Hou S.-M.;Kuo-Shyan Lu;Hang Y.-S.;Liu T.-K.;Cheng C.-K. |
| 臺大學術典藏 |
2021-07-08T00:20:49Z |
Biomechanical rationale for short implants in splinted restorations: An in vitro study
|
TSUNG-CHIEH YANG; Maeda Y.; Gonda T. |
| 臺大學術典藏 |
2018-09-10T08:31:06Z |
Biomechanical rationale for short implants in splinted restorations: an in vitro study.
|
Yang, T.C. Maeda, Y. Gonda, T.; TSUNG-CHIEH YANG |
| 臺大學術典藏 |
2021-07-08T00:20:48Z |
Biomechanical rationale for six splinted implants in bilateral canine, premolar, and molar regions in an edentulous maxilla
|
Sano M.; Ikebe K.; TSUNG-CHIEH YANG; Maeda Y. |
| 臺大學術典藏 |
2020-02-26T01:36:27Z |
Biomechanical response of intact, degenerated and repaired intervertebral discs under impact loading – Ex-vivo and In-Silico investigation
|
Nikkhoo, M.; Wang, J.-L.; Parnianpour, M.; El-Rich, M.; Khalaf, K.; JAW-LIN WANG |
| 國立臺灣科技大學 |
2016 |
Biomechanical risk factors for tripping during obstacle-Crossing with the trailing limb in patients with type II diabetes mellitus
|
Hsu, W.-C;Liu, M.-W;Lu, T.-W. |
| 臺大學術典藏 |
2020-02-26T01:37:08Z |
Biomechanical risk factors for tripping during obstacle-Crossing with the trailing limb in patients with type II diabetes mellitus
|
Hsu, W.-C.; Liu, M.-W.; Lu, T.-W.; TUNG-WU LU |
| 國立臺灣大學 |
2010 |
Biomechanical Role of the Locomotor System in Controlling Body Center of Mass Motion in Older Adults during Obstructed Gait
|
王廷明; 陳顥齡; 許維君; 劉明偉; 呂東武; WANG, TING-MING; CHEN, HAO-LING; HSU, WEI-CHUN; LIU, MING-WEI; LU, TUNG-WU |
| 臺大學術典藏 |
2018-09-10T08:17:19Z |
Biomechanical role of the locomotor system in controlling body center of mass motion in older adults during obstructed Gait
|
Wang, T.-M. and Chen, H.-L. and Hsu, W.-C. and Liu, M.-W. and Lu, T.-W.; HAO-LING CHEN |
| 臺大學術典藏 |
2020-02-26T01:37:21Z |
Biomechanical role of the locomotor system in controlling body center of mass motion in older adults during obstructed Gait
|
Wang, T.-M.; Chen, H.-L.; Hsu, W.-C.; Liu, M.-W.; Lu, T.-W.; TUNG-WU LU |
| 臺大學術典藏 |
2010 |
Biomechanical role of the locomotor system in controlling body center of mass motion in older adults during obstructed Gait
|
Liu M.-W.; Lu T.-W.; Hsu W.-C.; HAO-LING CHEN; Wang T.-M.; Wang T.-M.;Hao-Ling Chen;Hsu W.-C.;Liu M.-W.;Lu T.-W. |
| 臺大學術典藏 |
2019-10-22T02:34:50Z |
Biomechanical Simulation of Stress Concentration and Intraocular Pressure in Corneas Subjected to Myopic Refractive Surgical Procedures
|
Shih P.-J.;Wang I.-J.;Cai W.-F.;Yen J.-Y.Jia-Yush Yen; Shih P.-J.; Wang I.-J.; Cai W.-F.; Yen J.-Y.; JIA-YUSH YEN |
| 臺大學術典藏 |
2020-02-26T01:36:44Z |
Biomechanical Simulation of Stress Concentration and Intraocular Pressure in Corneas Subjected to Myopic Refractive Surgical Procedures
|
Po-Jen Shih Shih, P.-J.;Wang, I.-J.;Cai, W.-F.;Yen, J.-Y.; Shih, P.-J.; Wang, I.-J.; Cai, W.-F.; Yen, J.-Y.; PO-JEN SHIH |
