关注
Shengmao Lin
Shengmao Lin
在 xmut.edu.cn 的电子邮件经过验证
标题
引用次数
引用次数
年份
Bioink properties before, during and after 3D bioprinting
K Hölzl, S Lin, L Tytgat, S Van Vlierberghe, L Gu, A Ovsianikov
Biofabrication 8 (3), 032002, 2016
11012016
Influence of crosslink density and stiffness on mechanical properties of type I collagen gel
S Lin, L Gu
Materials 8 (2), 551-560, 2015
1442015
Fluid‐structure interaction in abdominal aortic aneurysm: effect of modeling techniques
S Lin, X Han, Y Bi, S Ju, L Gu
BioMed research international 2017 (1), 7023078, 2017
752017
Controllable energy absorption of double sided corrugated tubes under axial crushing
H Mozafari, S Lin, GCP Tsui, L Gu
Composites Part B: Engineering 134, 9-17, 2018
492018
Bioink properties before, during and after 3D bioprinting. Biofabrication, 8 (3): 032002
K Hölzl, S Lin, L Tytgat, S Van Vlierberghe, L Gu, A Ovsianikov
302016
Degradation modeling of poly-l-lactide acid (PLLA) bioresorbable vascular scaffold within a coronary artery
S Lin, P Dong, C Zhou, LAP Dallan, VN Zimin, GTR Pereira, J Lee, ...
Nanotechnology reviews 9 (1), 1217-1226, 2020
262020
Towards tuning the mechanical properties of three-dimensional collagen scaffolds using a coupled fiber-matrix model
S Lin, LA Hapach, C Reinhart-King, L Gu
Materials 8 (8), 5376-5384, 2015
232015
Relevance of Blood Vessel Networks in Blast‐Induced Traumatic Brain Injury
Y Hua, S Lin, L Gu
Computational and mathematical methods in medicine 2015 (1), 928236, 2015
182015
Bioink properties before, during and after 3D bioprinting. Biofabrication. 2016; 8 (3): 032002
K Hölzl, S Lin, L Tytgat, S Van Vlierberghe, L Gu, A Ovsianikov
15
Active stiffening of F-actin network dominated by structural transition of actin filaments into bundles
S Lin, X Han, GCP Tsui, D Hui, L Gu
Composites Part B: Engineering 116, 377-381, 2017
142017
Eigenstrain as a mechanical set-point of cells
S Lin, MC Lampi, CA Reinhart-King, G Tsui, J Wang, CA Nelson, L Gu
Biomechanics and Modeling in Mechanobiology 17, 951-959, 2018
132018
Bioink properties before, during and after 3D bioprinting. Biofabrication. 2016; 8: 032002
K Hölzl, S Lin, L Tytgat, S Van Vlierberghe, L Gu, A Ovsianikov
13
Bioink Properties before, during and after 3D Bioprinting. Biofabrication, 8: 032002
K Hölzl, S Lin, L Tytgat, S Van Vlierberghe, L Gu, A Ovsianikov
122016
Mechanical performance of bovine pericardial bioprosthetic valves
S Lin, P Akula, L Gu
Journal of Medical Devices 7 (3), 030926, 2013
102013
Case study of quantifying energy loss through ceiling-attic recessed lighting fixtures through 3D numerical simulation
R Na, S Lin, Z Shen, L Gu
Journal of Architectural Engineering 23 (1), C5016003, 2017
72017
Multiscale modeling of skeletal muscle active contraction in relation to mechanochemical coupling of molecular motors
J Chen, X Zhang, S Lin, H Wang, L Gu
Micromachines 6 (7), 902-914, 2015
52015
Hemodynamics and wall mechanics after surgical repair of aortic arch: Implication for better clinical decisions
S Ju, I Abdullah, S Lin, L Gu
Applied Sciences 9 (4), 807, 2019
42019
Upper airway flow dynamics in obstructive sleep apnea patients with various apnea-hypopnea index
S Lin, TS Premaraj, PT Gamage, P Dong, S Premaraj, L Gu
Life 12 (7), 1080, 2022
32022
Evaluating energy loss through recessed lighting fixtures (RLF) in residential buildings through a case study
R Na, S Lin, Z Shen, L Gu
Computing in Civil and Building Engineering (2014), 1691-1698, 2014
32014
Target lesion calcium arc influence the performance of stenting
P Dong, S Lin, DL Wilson, HG Bezerra, L Gu
Frontiers in Biomedical Devices 40672, V001T09A008, 2017
22017
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